TSTP Solution File: ALG052+1 by cvc5---1.0.5
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : cvc5---1.0.5
% Problem : ALG052+1 : TPTP v8.2.0. Released v2.7.0.
% Transfm : none
% Format : tptp:raw
% Command : do_cvc5 %s %d
% Computer : n005.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 300s
% DateTime : Wed May 29 16:29:33 EDT 2024
% Result : Theorem 32.25s 32.43s
% Output : Proof 32.43s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.15 % Problem : ALG052+1 : TPTP v8.2.0. Released v2.7.0.
% 0.16/0.16 % Command : do_cvc5 %s %d
% 0.16/0.37 % Computer : n005.cluster.edu
% 0.16/0.37 % Model : x86_64 x86_64
% 0.16/0.37 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.16/0.37 % Memory : 8042.1875MB
% 0.16/0.37 % OS : Linux 3.10.0-693.el7.x86_64
% 0.16/0.37 % CPULimit : 300
% 0.16/0.37 % WCLimit : 300
% 0.16/0.37 % DateTime : Sun May 26 09:51:54 EDT 2024
% 0.16/0.37 % CPUTime :
% 0.37/0.58 %----Proving TF0_NAR, FOF, or CNF
% 32.25/32.43 --- Run --decision=internal --simplification=none --no-inst-no-entail --no-cbqi --full-saturate-quant at 10...
% 32.25/32.43 % SZS status Theorem for /export/starexec/sandbox2/tmp/tmp.XGF6w67jLy/cvc5---1.0.5_16790.smt2
% 32.25/32.43 % SZS output start Proof for /export/starexec/sandbox2/tmp/tmp.XGF6w67jLy/cvc5---1.0.5_16790.smt2
% 32.25/32.43 (assume a0 (and (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))
% 32.25/32.43 (assume a1 (and (= (tptp.op1 tptp.unit1 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10) (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11) (= (tptp.op1 tptp.unit1 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12) (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13) (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14) (or (= tptp.unit1 tptp.e10) (= tptp.unit1 tptp.e11) (= tptp.unit1 tptp.e12) (= tptp.unit1 tptp.e13) (= tptp.unit1 tptp.e14))))
% 32.25/32.43 (assume a2 (and (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))
% 32.25/32.44 (assume a3 (and (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))
% 32.25/32.44 (assume a4 (and (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20) (= (tptp.op2 tptp.unit2 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21) (= (tptp.op2 tptp.unit2 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22) (= (tptp.op2 tptp.unit2 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23) (= (tptp.op2 tptp.unit2 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24) (or (= tptp.unit2 tptp.e20) (= tptp.unit2 tptp.e21) (= tptp.unit2 tptp.e22) (= tptp.unit2 tptp.e23) (= tptp.unit2 tptp.e24))))
% 32.25/32.44 (assume a5 (and (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))
% 32.25/32.44 (assume a6 (and (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e14)))))
% 32.25/32.44 (assume a7 (and (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e24)))))
% 32.25/32.44 (assume a8 (and (not (= tptp.e10 tptp.e11)) (not (= tptp.e10 tptp.e12)) (not (= tptp.e10 tptp.e13)) (not (= tptp.e10 tptp.e14)) (not (= tptp.e11 tptp.e12)) (not (= tptp.e11 tptp.e13)) (not (= tptp.e11 tptp.e14)) (not (= tptp.e12 tptp.e13)) (not (= tptp.e12 tptp.e14)) (not (= tptp.e13 tptp.e14))))
% 32.25/32.44 (assume a9 (and (not (= tptp.e20 tptp.e21)) (not (= tptp.e20 tptp.e22)) (not (= tptp.e20 tptp.e23)) (not (= tptp.e20 tptp.e24)) (not (= tptp.e21 tptp.e22)) (not (= tptp.e21 tptp.e23)) (not (= tptp.e21 tptp.e24)) (not (= tptp.e22 tptp.e23)) (not (= tptp.e22 tptp.e24)) (not (= tptp.e23 tptp.e24))))
% 32.25/32.44 (assume a10 (and (not (= tptp.e10 tptp.e20)) (not (= tptp.e10 tptp.e21)) (not (= tptp.e10 tptp.e22)) (not (= tptp.e10 tptp.e23)) (not (= tptp.e10 tptp.e24)) (not (= tptp.e11 tptp.e20)) (not (= tptp.e11 tptp.e21)) (not (= tptp.e11 tptp.e22)) (not (= tptp.e11 tptp.e23)) (not (= tptp.e11 tptp.e24)) (not (= tptp.e12 tptp.e20)) (not (= tptp.e12 tptp.e21)) (not (= tptp.e12 tptp.e22)) (not (= tptp.e12 tptp.e23)) (not (= tptp.e12 tptp.e24)) (not (= tptp.e13 tptp.e20)) (not (= tptp.e13 tptp.e21)) (not (= tptp.e13 tptp.e22)) (not (= tptp.e13 tptp.e23)) (not (= tptp.e13 tptp.e24)) (not (= tptp.e14 tptp.e20)) (not (= tptp.e14 tptp.e21)) (not (= tptp.e14 tptp.e22)) (not (= tptp.e14 tptp.e23)) (not (= tptp.e14 tptp.e24))))
% 32.25/32.44 (assume a11 (or (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))))
% 32.25/32.44 (assume a12 (or (and (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (not (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (and (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (not (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20))) (and (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (not (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20))) (and (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (not (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20))) (and (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20) (not (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20))) (and (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (not (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21))) (and (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (not (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (and (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (not (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21))) (and (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (not (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21))) (and (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21) (not (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21))) (and (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (not (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22))) (and (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (not (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22))) (and (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (not (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22))) (and (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (not (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22))) (and (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22) (not (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22))) (and (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (not (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23))) (and (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (not (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23))) (and (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (not (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23))) (and (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (not (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (and (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23) (not (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23))) (and (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (not (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24))) (and (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (not (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24))) (and (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (not (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24))) (and (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (not (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24))) (and (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (not (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))))
% 32.25/32.44 (assume a13 (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))
% 32.25/32.44 (assume a14 (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))
% 32.25/32.44 (assume a15 (and (= (tptp.h1 tptp.e14) tptp.e20) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))))
% 32.25/32.44 (assume a16 (and (= (tptp.h2 tptp.e14) tptp.e21) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))))
% 32.25/32.44 (assume a17 (and (= (tptp.h3 tptp.e14) tptp.e22) (= (tptp.h3 tptp.e10) (tptp.op2 (tptp.op2 tptp.e22 tptp.e22) tptp.e22)) (= (tptp.h3 tptp.e11) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.h3 tptp.e12) (tptp.op2 (tptp.op2 tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) tptp.e22)) (= (tptp.h3 tptp.e13) (tptp.op2 tptp.e22 (tptp.op2 tptp.e22 tptp.e22)))))
% 32.25/32.44 (assume a18 (and (= (tptp.h4 tptp.e14) tptp.e23) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))))
% 32.25/32.44 (assume a19 (and (= (tptp.h5 tptp.e14) tptp.e24) (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))
% 32.25/32.44 (assume a20 (not (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= (tptp.h1 tptp.e10) tptp.e20) (= (tptp.h1 tptp.e11) tptp.e20) (= (tptp.h1 tptp.e12) tptp.e20) (= (tptp.h1 tptp.e13) tptp.e20) (= (tptp.h1 tptp.e14) tptp.e20)) (or (= (tptp.h1 tptp.e10) tptp.e21) (= (tptp.h1 tptp.e11) tptp.e21) (= (tptp.h1 tptp.e12) tptp.e21) (= (tptp.h1 tptp.e13) tptp.e21) (= (tptp.h1 tptp.e14) tptp.e21)) (or (= (tptp.h1 tptp.e10) tptp.e22) (= (tptp.h1 tptp.e11) tptp.e22) (= (tptp.h1 tptp.e12) tptp.e22) (= (tptp.h1 tptp.e13) tptp.e22) (= (tptp.h1 tptp.e14) tptp.e22)) (or (= (tptp.h1 tptp.e10) tptp.e23) (= (tptp.h1 tptp.e11) tptp.e23) (= (tptp.h1 tptp.e12) tptp.e23) (= (tptp.h1 tptp.e13) tptp.e23) (= (tptp.h1 tptp.e14) tptp.e23)) (or (= (tptp.h1 tptp.e10) tptp.e24) (= (tptp.h1 tptp.e11) tptp.e24) (= (tptp.h1 tptp.e12) tptp.e24) (= (tptp.h1 tptp.e13) tptp.e24) (= (tptp.h1 tptp.e14) tptp.e24))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= (tptp.h2 tptp.e10) tptp.e20) (= (tptp.h2 tptp.e11) tptp.e20) (= (tptp.h2 tptp.e12) tptp.e20) (= (tptp.h2 tptp.e13) tptp.e20) (= (tptp.h2 tptp.e14) tptp.e20)) (or (= (tptp.h2 tptp.e10) tptp.e21) (= (tptp.h2 tptp.e11) tptp.e21) (= (tptp.h2 tptp.e12) tptp.e21) (= (tptp.h2 tptp.e13) tptp.e21) (= (tptp.h2 tptp.e14) tptp.e21)) (or (= (tptp.h2 tptp.e10) tptp.e22) (= (tptp.h2 tptp.e11) tptp.e22) (= (tptp.h2 tptp.e12) tptp.e22) (= (tptp.h2 tptp.e13) tptp.e22) (= (tptp.h2 tptp.e14) tptp.e22)) (or (= (tptp.h2 tptp.e10) tptp.e23) (= (tptp.h2 tptp.e11) tptp.e23) (= (tptp.h2 tptp.e12) tptp.e23) (= (tptp.h2 tptp.e13) tptp.e23) (= (tptp.h2 tptp.e14) tptp.e23)) (or (= (tptp.h2 tptp.e10) tptp.e24) (= (tptp.h2 tptp.e11) tptp.e24) (= (tptp.h2 tptp.e12) tptp.e24) (= (tptp.h2 tptp.e13) tptp.e24) (= (tptp.h2 tptp.e14) tptp.e24))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= (tptp.h3 tptp.e10) tptp.e20) (= (tptp.h3 tptp.e11) tptp.e20) (= (tptp.h3 tptp.e12) tptp.e20) (= (tptp.h3 tptp.e13) tptp.e20) (= (tptp.h3 tptp.e14) tptp.e20)) (or (= (tptp.h3 tptp.e10) tptp.e21) (= (tptp.h3 tptp.e11) tptp.e21) (= (tptp.h3 tptp.e12) tptp.e21) (= (tptp.h3 tptp.e13) tptp.e21) (= (tptp.h3 tptp.e14) tptp.e21)) (or (= (tptp.h3 tptp.e10) tptp.e22) (= (tptp.h3 tptp.e11) tptp.e22) (= (tptp.h3 tptp.e12) tptp.e22) (= (tptp.h3 tptp.e13) tptp.e22) (= (tptp.h3 tptp.e14) tptp.e22)) (or (= (tptp.h3 tptp.e10) tptp.e23) (= (tptp.h3 tptp.e11) tptp.e23) (= (tptp.h3 tptp.e12) tptp.e23) (= (tptp.h3 tptp.e13) tptp.e23) (= (tptp.h3 tptp.e14) tptp.e23)) (or (= (tptp.h3 tptp.e10) tptp.e24) (= (tptp.h3 tptp.e11) tptp.e24) (= (tptp.h3 tptp.e12) tptp.e24) (= (tptp.h3 tptp.e13) tptp.e24) (= (tptp.h3 tptp.e14) tptp.e24))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= (tptp.h4 tptp.e10) tptp.e20) (= (tptp.h4 tptp.e11) tptp.e20) (= (tptp.h4 tptp.e12) tptp.e20) (= (tptp.h4 tptp.e13) tptp.e20) (= (tptp.h4 tptp.e14) tptp.e20)) (or (= (tptp.h4 tptp.e10) tptp.e21) (= (tptp.h4 tptp.e11) tptp.e21) (= (tptp.h4 tptp.e12) tptp.e21) (= (tptp.h4 tptp.e13) tptp.e21) (= (tptp.h4 tptp.e14) tptp.e21)) (or (= (tptp.h4 tptp.e10) tptp.e22) (= (tptp.h4 tptp.e11) tptp.e22) (= (tptp.h4 tptp.e12) tptp.e22) (= (tptp.h4 tptp.e13) tptp.e22) (= (tptp.h4 tptp.e14) tptp.e22)) (or (= (tptp.h4 tptp.e10) tptp.e23) (= (tptp.h4 tptp.e11) tptp.e23) (= (tptp.h4 tptp.e12) tptp.e23) (= (tptp.h4 tptp.e13) tptp.e23) (= (tptp.h4 tptp.e14) tptp.e23)) (or (= (tptp.h4 tptp.e10) tptp.e24) (= (tptp.h4 tptp.e11) tptp.e24) (= (tptp.h4 tptp.e12) tptp.e24) (= (tptp.h4 tptp.e13) tptp.e24) (= (tptp.h4 tptp.e14) tptp.e24))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= (tptp.h5 tptp.e10) tptp.e20) (= (tptp.h5 tptp.e11) tptp.e20) (= (tptp.h5 tptp.e12) tptp.e20) (= (tptp.h5 tptp.e13) tptp.e20) (= (tptp.h5 tptp.e14) tptp.e20)) (or (= (tptp.h5 tptp.e10) tptp.e21) (= (tptp.h5 tptp.e11) tptp.e21) (= (tptp.h5 tptp.e12) tptp.e21) (= (tptp.h5 tptp.e13) tptp.e21) (= (tptp.h5 tptp.e14) tptp.e21)) (or (= (tptp.h5 tptp.e10) tptp.e22) (= (tptp.h5 tptp.e11) tptp.e22) (= (tptp.h5 tptp.e12) tptp.e22) (= (tptp.h5 tptp.e13) tptp.e22) (= (tptp.h5 tptp.e14) tptp.e22)) (or (= (tptp.h5 tptp.e10) tptp.e23) (= (tptp.h5 tptp.e11) tptp.e23) (= (tptp.h5 tptp.e12) tptp.e23) (= (tptp.h5 tptp.e13) tptp.e23) (= (tptp.h5 tptp.e14) tptp.e23)) (or (= (tptp.h5 tptp.e10) tptp.e24) (= (tptp.h5 tptp.e11) tptp.e24) (= (tptp.h5 tptp.e12) tptp.e24) (= (tptp.h5 tptp.e13) tptp.e24) (= (tptp.h5 tptp.e14) tptp.e24))))))
% 32.25/32.44 (assume a21 true)
% 32.25/32.44 (step t1 (cl (not (= (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule equiv_pos2)
% 32.25/32.44 (step t2 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))))) :rule refl)
% 32.25/32.44 (step t3 (cl (= (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))))) :rule refl)
% 32.25/32.44 (step t4 (cl (= (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 tptp.unit2)))) :rule refl)
% 32.25/32.44 (step t5 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.44 (step t6 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule equiv1 :premises (t5))
% 32.25/32.44 (step t7 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))))) :rule all_simplify)
% 32.25/32.44 (step t8 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule refl)
% 32.25/32.44 (step t9 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t10 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t8 t9))
% 32.25/32.44 (step t11 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) true)) :rule all_simplify)
% 32.25/32.44 (step t12 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) true)) :rule trans :premises (t10 t11))
% 32.25/32.44 (step t13 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) true)) :rule trans :premises (t7 t12))
% 32.25/32.44 (step t14 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t6 t13))
% 32.25/32.44 (step t15 (cl (= (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t2 t3 t4 t14))
% 32.25/32.44 (step t16 (cl (not (= (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))))) (not (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule equiv_pos2)
% 32.25/32.44 (step t17 (cl (= (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule refl)
% 32.25/32.44 (step t18 (cl (= (= (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))))) :rule equiv_simplify)
% 32.25/32.44 (step t19 (cl (= (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) (not (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))))) :rule equiv2 :premises (t18))
% 32.25/32.44 (step t20 (cl (not (not (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule not_not)
% 32.25/32.44 (step t21 (cl (= (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t19 t20))
% 32.25/32.44 (step t22 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t23)
% 32.25/32.44 (assume t23.a0 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.25/32.44 (assume t23.a1 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))
% 32.25/32.44 (assume t23.a2 (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)))
% 32.25/32.44 (assume t23.a3 (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))
% 32.25/32.44 (step t23.t1 (cl (not (= (= false true) false)) (not (= false true)) false) :rule equiv_pos2)
% 32.25/32.44 (step t23.t2 (cl (= (= false true) false)) :rule all_simplify)
% 32.25/32.44 (step t23.t3 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) false) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.44 (step t23.t4 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv2 :premises (t23.t3))
% 32.25/32.44 (step t23.t5 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule not_not)
% 32.25/32.44 (step t23.t6 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) false) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule resolution :premises (t23.t4 t23.t5))
% 32.25/32.44 (step t23.t7 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) false)) :rule resolution :premises (t23.t6 t23.a3))
% 32.25/32.44 (step t23.t8 (cl (= false (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule symm :premises (t23.t7))
% 32.25/32.44 (step t23.t9 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) true) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule equiv_simplify)
% 32.25/32.44 (step t23.t10 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) true) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule equiv2 :premises (t23.t9))
% 32.25/32.44 (step t23.t11 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20)) :rule symm :premises (t23.a1))
% 32.25/32.44 (step t23.t12 (cl (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20)) :rule symm :premises (t23.a0))
% 32.25/32.44 (step t23.t13 (cl (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule symm :premises (t23.t12))
% 32.25/32.44 (step t23.t14 (cl (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20)) :rule symm :premises (t23.a2))
% 32.25/32.44 (step t23.t15 (cl (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.unit2 tptp.e20))) :rule trans :premises (t23.t14 t23.t13))
% 32.25/32.44 (step t23.t16 (cl (= (tptp.op2 tptp.unit2 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule symm :premises (t23.t15))
% 32.25/32.44 (step t23.t17 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule trans :premises (t23.t11 t23.t13 t23.t16))
% 32.25/32.44 (step t23.t18 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) true)) :rule resolution :premises (t23.t10 t23.t17))
% 32.25/32.44 (step t23.t19 (cl (= false true)) :rule trans :premises (t23.t8 t23.t18))
% 32.25/32.44 (step t23.t20 (cl false) :rule resolution :premises (t23.t1 t23.t2 t23.t19))
% 32.25/32.44 (step t23 (cl (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) :rule subproof :discharge (t23.a0 t23.a1 t23.a2 t23.a3))
% 32.25/32.44 (step t24 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t25 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t26 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t27 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule and_pos)
% 32.25/32.44 (step t28 (cl false (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule resolution :premises (t23 t24 t25 t26 t27))
% 32.25/32.44 (step t29 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) false) :rule reordering :premises (t28))
% 32.25/32.44 (step t30 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) false) :rule contraction :premises (t29))
% 32.25/32.44 (step t31 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) false) :rule resolution :premises (t22 t30))
% 32.25/32.44 (step t32 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) (not false)) :rule implies_neg2)
% 32.25/32.44 (step t33 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false)) :rule resolution :premises (t31 t32))
% 32.25/32.44 (step t34 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false)) :rule contraction :premises (t33))
% 32.25/32.44 (step t35 (cl (= (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))))) :rule implies_simplify)
% 32.25/32.44 (step t36 (cl (not (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false)) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule equiv1 :premises (t35))
% 32.25/32.44 (step t37 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule resolution :premises (t34 t36))
% 32.25/32.44 (step t38 (cl (= (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false)) :rule resolution :premises (t21 t37))
% 32.25/32.44 (step t39 (cl (= (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false))) :rule cong :premises (t17 t38))
% 32.25/32.44 (step t40 (cl (= (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) false) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))))) :rule all_simplify)
% 32.25/32.44 (step t41 (cl (= (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))))) :rule trans :premises (t39 t40))
% 32.25/32.44 (step t42 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t43)
% 32.25/32.44 (assume t43.a0 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))
% 32.25/32.44 (assume t43.a1 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.25/32.44 (assume t43.a2 (= tptp.e22 tptp.unit2))
% 32.25/32.44 (assume t43.a3 (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))
% 32.25/32.44 (step t43.t1 (cl (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule and_neg)
% 32.25/32.44 (step t43.t2 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t43.t3)
% 32.25/32.44 (assume t43.t3.a0 (= tptp.e22 tptp.unit2))
% 32.25/32.44 (assume t43.t3.a1 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.25/32.44 (step t43.t3.t1 (cl (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20)) :rule symm :premises (t43.t3.a1))
% 32.25/32.44 (step t43.t3.t2 (cl (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule symm :premises (t43.t3.t1))
% 32.25/32.44 (step t43.t3.t3 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t43.t3.a0))
% 32.25/32.44 (step t43.t3.t4 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.25/32.44 (step t43.t3.t5 (cl (= (tptp.op2 tptp.unit2 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule cong :premises (t43.t3.t3 t43.t3.t4))
% 32.25/32.44 (step t43.t3.t6 (cl (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) :rule trans :premises (t43.t3.t2 t43.t3.t5))
% 32.25/32.44 (step t43.t3 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) :rule subproof :discharge (t43.t3.a0 t43.t3.a1))
% 32.25/32.44 (step t43.t4 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.25/32.44 (step t43.t5 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t43.t6 (cl (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))))) :rule resolution :premises (t43.t3 t43.t4 t43.t5))
% 32.25/32.44 (step t43.t7 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) :rule reordering :premises (t43.t6))
% 32.25/32.44 (step t43.t8 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) :rule contraction :premises (t43.t7))
% 32.25/32.44 (step t43.t9 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) :rule resolution :premises (t43.t2 t43.t8))
% 32.25/32.44 (step t43.t10 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)))) :rule implies_neg2)
% 32.25/32.44 (step t43.t11 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t43.t9 t43.t10))
% 32.25/32.44 (step t43.t12 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)))) :rule contraction :premises (t43.t11))
% 32.25/32.44 (step t43.t13 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) :rule implies :premises (t43.t12))
% 32.25/32.44 (step t43.t14 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) :rule and_neg)
% 32.25/32.44 (step t43.t15 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) :rule resolution :premises (t43.t14 t43.a2 t43.a1))
% 32.25/32.44 (step t43.t16 (cl (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20))) :rule resolution :premises (t43.t13 t43.t15))
% 32.25/32.44 (step t43.t17 (cl (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t43.t1 t43.a1 t43.a0 t43.t16 t43.a3))
% 32.25/32.44 (step t43 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule subproof :discharge (t43.a0 t43.a1 t43.a2 t43.a3))
% 32.25/32.44 (step t44 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t45 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t46 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.25/32.44 (step t47 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule and_pos)
% 32.25/32.44 (step t48 (cl (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule resolution :premises (t43 t44 t45 t46 t47))
% 32.25/32.44 (step t49 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule reordering :premises (t48))
% 32.25/32.44 (step t50 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule contraction :premises (t49))
% 32.25/32.44 (step t51 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t42 t50))
% 32.25/32.44 (step t52 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule implies_neg2)
% 32.25/32.44 (step t53 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule resolution :premises (t51 t52))
% 32.25/32.44 (step t54 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule contraction :premises (t53))
% 32.25/32.44 (step t55 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule resolution :premises (t16 t41 t54))
% 32.25/32.44 (step t56 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule not_and :premises (t55))
% 32.25/32.44 (step t57 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))))) :rule or_neg)
% 32.25/32.44 (step t58 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))))) :rule or_neg)
% 32.25/32.44 (step t59 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.25/32.44 (step t60 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule or_neg)
% 32.25/32.44 (step t61 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule resolution :premises (t56 t57 t58 t59 t60))
% 32.25/32.44 (step t62 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))))) :rule contraction :premises (t61))
% 32.25/32.44 (step t63 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t1 t15 t62))
% 32.25/32.44 (step t64 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule or :premises (t63))
% 32.25/32.44 (step t65 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t64))
% 32.25/32.44 (step t66 (cl (not (= (and (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (and (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) (not (and (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (and (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule equiv_pos2)
% 32.25/32.44 (step t67 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t68 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t69 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t70 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t71 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t72 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t67 t68 t69 t70 t71))
% 32.25/32.44 (step t73 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t74 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t75 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t76 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t77 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t78 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t73 t74 t75 t76 t77))
% 32.25/32.44 (step t79 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t80 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t81 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t82 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t83 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t84 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t79 t80 t81 t82 t83))
% 32.25/32.44 (step t85 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t86 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t87 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t88 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t89 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t90 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule cong :premises (t85 t86 t87 t88 t89))
% 32.25/32.44 (step t91 (cl (= (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t92 (cl (= (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t93 (cl (= (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t94 (cl (= (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t95 (cl (= (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t96 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t91 t92 t93 t94 t95))
% 32.25/32.44 (step t97 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t98 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t99 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t100 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t101 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t102 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule cong :premises (t97 t98 t99 t100 t101))
% 32.25/32.44 (step t103 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t104 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t105 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t106 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t107 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t108 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule cong :premises (t103 t104 t105 t106 t107))
% 32.25/32.44 (step t109 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t110 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t111 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t112 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t113 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t114 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22))))) :rule cong :premises (t109 t110 t111 t112 t113))
% 32.25/32.44 (step t115 (cl (= (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t116 (cl (= (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t117 (cl (= (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t118 (cl (= (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t119 (cl (= (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t120 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23))))) :rule cong :premises (t115 t116 t117 t118 t119))
% 32.25/32.44 (step t121 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t122 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t123 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t124 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t125 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t126 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t121 t122 t123 t124 t125))
% 32.25/32.44 (step t127 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t128 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t129 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t130 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t131 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t132 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t127 t128 t129 t130 t131))
% 32.25/32.44 (step t133 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t134 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t135 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t136 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t137 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t138 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21))))) :rule cong :premises (t133 t134 t135 t136 t137))
% 32.25/32.44 (step t139 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t140 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t141 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t142 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t143 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t144 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22))))) :rule cong :premises (t139 t140 t141 t142 t143))
% 32.25/32.44 (step t145 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t146 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t147 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t148 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t149 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t150 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23))))) :rule cong :premises (t145 t146 t147 t148 t149))
% 32.25/32.44 (step t151 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t152 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t153 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t154 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t155 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t156 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t151 t152 t153 t154 t155))
% 32.25/32.44 (step t157 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t158 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t159 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t160 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t161 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t162 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))))) :rule cong :premises (t157 t158 t159 t160 t161))
% 32.25/32.44 (step t163 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t164 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t165 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t166 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t167 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t168 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule cong :premises (t163 t164 t165 t166 t167))
% 32.25/32.44 (step t169 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t170 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t171 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t172 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t173 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t174 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule cong :premises (t169 t170 t171 t172 t173))
% 32.25/32.44 (step t175 (cl (= (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t176 (cl (= (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t177 (cl (= (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t178 (cl (= (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t179 (cl (= (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t180 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))))) :rule cong :premises (t175 t176 t177 t178 t179))
% 32.25/32.44 (step t181 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t182 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t183 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t184 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t185 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t186 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule cong :premises (t181 t182 t183 t184 t185))
% 32.25/32.44 (step t187 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t188 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t189 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t190 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t191 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t192 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t187 t188 t189 t190 t191))
% 32.25/32.44 (step t193 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t194 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t195 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t196 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t197 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t198 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))))) :rule cong :premises (t193 t194 t195 t196 t197))
% 32.25/32.44 (step t199 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t200 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t201 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t202 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t203 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t204 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))))) :rule cong :premises (t199 t200 t201 t202 t203))
% 32.25/32.44 (step t205 (cl (= (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t206 (cl (= (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t207 (cl (= (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t208 (cl (= (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t209 (cl (= (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t210 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))))) :rule cong :premises (t205 t206 t207 t208 t209))
% 32.25/32.44 (step t211 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t212 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t213 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t214 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t215 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t216 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t211 t212 t213 t214 t215))
% 32.25/32.44 (step t217 (cl (= (and (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (and (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule cong :premises (t72 t78 t84 t90 t96 t102 t108 t114 t120 t126 t132 t138 t144 t150 t156 t162 t168 t174 t180 t186 t192 t198 t204 t210 t216))
% 32.25/32.44 (step t218 (cl (and (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t66 t217 a3))
% 32.25/32.44 (step t219 (cl (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule and :premises (t218))
% 32.25/32.44 (step t220 (cl (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) :rule or :premises (t219))
% 32.25/32.44 (step t221 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_pos2)
% 32.25/32.44 (step t222 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule refl)
% 32.25/32.44 (step t223 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.44 (step t224 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) :rule equiv1 :premises (t223))
% 32.25/32.44 (step t225 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))))) :rule all_simplify)
% 32.25/32.44 (step t226 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) :rule refl)
% 32.25/32.44 (step t227 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t228 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t226 t227))
% 32.25/32.44 (step t229 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) true)) :rule all_simplify)
% 32.25/32.44 (step t230 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) true)) :rule trans :premises (t228 t229))
% 32.25/32.44 (step t231 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) true)) :rule trans :premises (t225 t230))
% 32.25/32.44 (step t232 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t224 t231))
% 32.25/32.44 (step t233 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule refl)
% 32.25/32.44 (step t234 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))))) :rule cong :premises (t222 t232 t233))
% 32.25/32.44 (step t235 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) :rule and_neg)
% 32.25/32.44 (step t236 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t237)
% 32.25/32.44 (assume t237.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (assume t237.a1 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))
% 32.25/32.44 (step t237.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t237.t2)
% 32.25/32.44 (assume t237.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))
% 32.25/32.44 (assume t237.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (step t237.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) false) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.44 (step t237.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) false)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule equiv1 :premises (t237.t2.t1))
% 32.25/32.44 (step t237.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t237.t2.a1))
% 32.25/32.44 (step t237.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t237.t2.t3))
% 32.25/32.44 (step t237.t2.t5 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) :rule refl)
% 32.25/32.44 (step t237.t2.t6 (cl (= (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) :rule cong :premises (t237.t2.t4 t237.t2.t5))
% 32.25/32.44 (step t237.t2.t7 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) false) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.44 (step t237.t2.t8 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv2 :premises (t237.t2.t7))
% 32.25/32.44 (step t237.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) :rule not_not)
% 32.25/32.44 (step t237.t2.t10 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) false) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) :rule resolution :premises (t237.t2.t8 t237.t2.t9))
% 32.25/32.44 (step t237.t2.t11 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) false)) :rule resolution :premises (t237.t2.t10 t237.t2.a0))
% 32.25/32.44 (step t237.t2.t12 (cl (= (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) false)) :rule trans :premises (t237.t2.t6 t237.t2.t11))
% 32.25/32.44 (step t237.t2.t13 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t237.t2.t2 t237.t2.t12))
% 32.25/32.44 (step t237.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule subproof :discharge (t237.t2.a0 t237.t2.a1))
% 32.25/32.44 (step t237.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) :rule and_pos)
% 32.25/32.44 (step t237.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t237.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t237.t2 t237.t3 t237.t4))
% 32.25/32.44 (step t237.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule reordering :premises (t237.t5))
% 32.25/32.44 (step t237.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule contraction :premises (t237.t6))
% 32.25/32.44 (step t237.t8 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t237.t1 t237.t7))
% 32.25/32.44 (step t237.t9 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule implies_neg2)
% 32.25/32.44 (step t237.t10 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t237.t8 t237.t9))
% 32.25/32.44 (step t237.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule contraction :premises (t237.t10))
% 32.25/32.44 (step t237.t12 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule implies :premises (t237.t11))
% 32.25/32.44 (step t237.t13 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_neg)
% 32.25/32.44 (step t237.t14 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t237.t13 t237.a1 t237.a0))
% 32.25/32.44 (step t237.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t237.t12 t237.t14))
% 32.25/32.44 (step t237 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule subproof :discharge (t237.a0 t237.a1))
% 32.25/32.44 (step t238 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t239 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) :rule and_pos)
% 32.25/32.44 (step t240 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))))) :rule resolution :premises (t237 t238 t239))
% 32.25/32.44 (step t241 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule reordering :premises (t240))
% 32.25/32.44 (step t242 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule contraction :premises (t241))
% 32.25/32.44 (step t243 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t236 t242))
% 32.25/32.44 (step t244 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule implies_neg2)
% 32.25/32.44 (step t245 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t243 t244))
% 32.25/32.44 (step t246 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule contraction :premises (t245))
% 32.25/32.44 (step t247 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule implies :premises (t246))
% 32.25/32.44 (step t248 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t235 t247))
% 32.25/32.44 (step t249 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.25/32.44 (step t250 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))))) :rule or_neg)
% 32.25/32.44 (step t251 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule or_neg)
% 32.25/32.44 (step t252 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t248 t249 t250 t251))
% 32.25/32.44 (step t253 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule contraction :premises (t252))
% 32.25/32.44 (step t254 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t221 t234 t253))
% 32.25/32.44 (step t255 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule or :premises (t254))
% 32.25/32.44 (step t256 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule reordering :premises (t255))
% 32.25/32.44 (step t257 (cl (not (= (and (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e24)))) (and (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e23)))))) (not (and (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e24))))) (and (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e23))))) :rule equiv_pos2)
% 32.25/32.44 (step t258 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t259 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t258))
% 32.25/32.44 (step t260 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t261 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t260))
% 32.25/32.44 (step t262 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t263 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t262))
% 32.25/32.44 (step t264 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t265 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t264))
% 32.25/32.44 (step t266 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t267 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))))) :rule cong :premises (t266))
% 32.25/32.44 (step t268 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t269 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))))) :rule cong :premises (t268))
% 32.25/32.44 (step t270 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t271 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))))) :rule cong :premises (t270))
% 32.25/32.44 (step t272 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t273 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t272))
% 32.25/32.44 (step t274 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t275 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t274))
% 32.25/32.44 (step t276 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t277 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))))) :rule cong :premises (t276))
% 32.25/32.44 (step t278 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t279 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t278))
% 32.25/32.44 (step t280 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t281 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t280))
% 32.25/32.44 (step t282 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t283 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t282))
% 32.25/32.44 (step t284 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e24 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t285 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t284))
% 32.25/32.44 (step t286 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t287 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) :rule cong :premises (t286))
% 32.25/32.44 (step t288 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t289 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) :rule cong :premises (t288))
% 32.25/32.44 (step t290 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e24 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t291 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) :rule cong :premises (t290))
% 32.25/32.44 (step t292 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t293 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) :rule cong :premises (t292))
% 32.25/32.44 (step t294 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e24 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t295 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) :rule cong :premises (t294))
% 32.25/32.44 (step t296 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e24 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e23 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t297 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))))) :rule cong :premises (t296))
% 32.25/32.44 (step t298 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t299 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t298))
% 32.25/32.44 (step t300 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t301 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t300))
% 32.25/32.44 (step t302 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t303 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t302))
% 32.25/32.44 (step t304 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e24 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t305 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t304))
% 32.25/32.44 (step t306 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t307 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule cong :premises (t306))
% 32.25/32.44 (step t308 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t309 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule cong :premises (t308))
% 32.25/32.44 (step t310 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e24 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t311 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule cong :premises (t310))
% 32.25/32.44 (step t312 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t313 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))) :rule cong :premises (t312))
% 32.25/32.44 (step t314 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e24 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t315 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))) :rule cong :premises (t314))
% 32.25/32.44 (step t316 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e24 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t317 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) :rule cong :premises (t316))
% 32.25/32.44 (step t318 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t319 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))))) :rule cong :premises (t318))
% 32.25/32.44 (step t320 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e22 tptp.e23)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t321 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))))) :rule cong :premises (t320))
% 32.25/32.44 (step t322 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t323 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))))) :rule cong :premises (t322))
% 32.25/32.44 (step t324 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e24 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t325 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))))) :rule cong :premises (t324))
% 32.25/32.44 (step t326 (cl (= (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e22 tptp.e23)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t327 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) :rule cong :premises (t326))
% 32.25/32.44 (step t328 (cl (= (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t329 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) :rule cong :premises (t328))
% 32.25/32.44 (step t330 (cl (= (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e24 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t331 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) :rule cong :premises (t330))
% 32.25/32.44 (step t332 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e22 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t333 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))))) :rule cong :premises (t332))
% 32.25/32.44 (step t334 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e24 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e22 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t335 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))))) :rule cong :premises (t334))
% 32.25/32.44 (step t336 (cl (= (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e24 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e23 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t337 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))))) :rule cong :premises (t336))
% 32.25/32.44 (step t338 (cl (= (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t339 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t338))
% 32.25/32.44 (step t340 (cl (= (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t341 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t340))
% 32.25/32.44 (step t342 (cl (= (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t343 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t342))
% 32.25/32.44 (step t344 (cl (= (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t345 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t344))
% 32.25/32.44 (step t346 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t347 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t346))
% 32.25/32.44 (step t348 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t349 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t348))
% 32.25/32.44 (step t350 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t351 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t350))
% 32.25/32.44 (step t352 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t353 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t352))
% 32.25/32.44 (step t354 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t355 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t354))
% 32.25/32.44 (step t356 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) :rule all_simplify)
% 32.25/32.44 (step t357 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) :rule cong :premises (t356))
% 32.25/32.44 (step t358 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t359 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t358))
% 32.25/32.44 (step t360 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t361 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t360))
% 32.25/32.44 (step t362 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t363 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t362))
% 32.25/32.44 (step t364 (cl (= (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t365 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t364))
% 32.25/32.44 (step t366 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t367 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t366))
% 32.25/32.44 (step t368 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t369 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t368))
% 32.25/32.44 (step t370 (cl (= (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t371 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t370))
% 32.25/32.44 (step t372 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t373 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t372))
% 32.25/32.44 (step t374 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t375 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t374))
% 32.25/32.44 (step t376 (cl (= (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t377 (cl (= (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e23))))) :rule cong :premises (t376))
% 32.25/32.44 (step t378 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t379 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e20))))) :rule cong :premises (t378))
% 32.25/32.44 (step t380 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t381 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e20))))) :rule cong :premises (t380))
% 32.25/32.44 (step t382 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t383 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e20))))) :rule cong :premises (t382))
% 32.25/32.44 (step t384 (cl (= (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t385 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e20))))) :rule cong :premises (t384))
% 32.25/32.44 (step t386 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t387 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e21))))) :rule cong :premises (t386))
% 32.25/32.44 (step t388 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t389 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e21))))) :rule cong :premises (t388))
% 32.25/32.44 (step t390 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t391 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) :rule cong :premises (t390))
% 32.25/32.44 (step t392 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t393 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e22))))) :rule cong :premises (t392))
% 32.25/32.44 (step t394 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t395 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e22))))) :rule cong :premises (t394))
% 32.25/32.44 (step t396 (cl (= (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t397 (cl (= (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e23))))) :rule cong :premises (t396))
% 32.25/32.44 (step t398 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e21)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t399 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t398))
% 32.25/32.44 (step t400 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t401 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t400))
% 32.25/32.44 (step t402 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e23)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t403 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t402))
% 32.25/32.44 (step t404 (cl (= (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t405 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t404))
% 32.25/32.44 (step t406 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t407 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e21))))) :rule cong :premises (t406))
% 32.25/32.44 (step t408 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e23)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t409 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e21))))) :rule cong :premises (t408))
% 32.25/32.44 (step t410 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t411 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e21))))) :rule cong :premises (t410))
% 32.25/32.44 (step t412 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e23)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t413 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e22))))) :rule cong :premises (t412))
% 32.25/32.44 (step t414 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t415 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))) :rule cong :premises (t414))
% 32.25/32.44 (step t416 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t417 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e23))))) :rule cong :premises (t416))
% 32.25/32.44 (step t418 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t419 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) :rule cong :premises (t418))
% 32.25/32.44 (step t420 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t421 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) :rule cong :premises (t420))
% 32.25/32.44 (step t422 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t423 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e20))))) :rule cong :premises (t422))
% 32.25/32.44 (step t424 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t425 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) :rule cong :premises (t424))
% 32.25/32.44 (step t426 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t427 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e21))))) :rule cong :premises (t426))
% 32.25/32.44 (step t428 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t429 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e21))))) :rule cong :premises (t428))
% 32.25/32.44 (step t430 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t431 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e21))))) :rule cong :premises (t430))
% 32.25/32.44 (step t432 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t433 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e22))))) :rule cong :premises (t432))
% 32.25/32.44 (step t434 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t435 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e22))))) :rule cong :premises (t434))
% 32.25/32.44 (step t436 (cl (= (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t437 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e23))))) :rule cong :premises (t436))
% 32.25/32.44 (step t438 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t439 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t438))
% 32.25/32.44 (step t440 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t441 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t440))
% 32.25/32.44 (step t442 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t443 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t442))
% 32.25/32.44 (step t444 (cl (= (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.25/32.44 (step t445 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t444))
% 32.25/32.44 (step t446 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t447 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e21))))) :rule cong :premises (t446))
% 32.25/32.44 (step t448 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t449 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e21))))) :rule cong :premises (t448))
% 32.25/32.44 (step t450 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e21)))) :rule all_simplify)
% 32.25/32.44 (step t451 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e21))))) :rule cong :premises (t450))
% 32.25/32.44 (step t452 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t453 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e22))))) :rule cong :premises (t452))
% 32.25/32.44 (step t454 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e22)))) :rule all_simplify)
% 32.25/32.44 (step t455 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e22))))) :rule cong :premises (t454))
% 32.25/32.44 (step t456 (cl (= (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e23)))) :rule all_simplify)
% 32.25/32.44 (step t457 (cl (= (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e23))))) :rule cong :premises (t456))
% 32.25/32.44 (step t458 (cl (= (and (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e24)))) (and (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e23)))))) :rule cong :premises (t259 t261 t263 t265 t267 t269 t271 t273 t275 t277 t279 t281 t283 t285 t287 t289 t291 t293 t295 t297 t299 t301 t303 t305 t307 t309 t311 t313 t315 t317 t319 t321 t323 t325 t327 t329 t331 t333 t335 t337 t339 t341 t343 t345 t347 t349 t351 t353 t355 t357 t359 t361 t363 t365 t367 t369 t371 t373 t375 t377 t379 t381 t383 t385 t387 t389 t391 t393 t395 t397 t399 t401 t403 t405 t407 t409 t411 t413 t415 t417 t419 t421 t423 t425 t427 t429 t431 t433 t435 t437 t439 t441 t443 t445 t447 t449 t451 t453 t455 t457))
% 32.25/32.44 (step t459 (cl (and (not (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (not (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e22))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e21))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e21))) (not (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e23))))) :rule resolution :premises (t257 t458 a7))
% 32.25/32.44 (step t460 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e24 tptp.e20)))) :rule and :premises (t459))
% 32.25/32.44 (step t461 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and :premises (a14))
% 32.25/32.44 (step t462 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t256 t460 t461))
% 32.25/32.44 (step t463 (cl (not (= (not (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= (tptp.h1 tptp.e10) tptp.e20) (= (tptp.h1 tptp.e11) tptp.e20) (= (tptp.h1 tptp.e12) tptp.e20) (= (tptp.h1 tptp.e13) tptp.e20) (= (tptp.h1 tptp.e14) tptp.e20)) (or (= (tptp.h1 tptp.e10) tptp.e21) (= (tptp.h1 tptp.e11) tptp.e21) (= (tptp.h1 tptp.e12) tptp.e21) (= (tptp.h1 tptp.e13) tptp.e21) (= (tptp.h1 tptp.e14) tptp.e21)) (or (= (tptp.h1 tptp.e10) tptp.e22) (= (tptp.h1 tptp.e11) tptp.e22) (= (tptp.h1 tptp.e12) tptp.e22) (= (tptp.h1 tptp.e13) tptp.e22) (= (tptp.h1 tptp.e14) tptp.e22)) (or (= (tptp.h1 tptp.e10) tptp.e23) (= (tptp.h1 tptp.e11) tptp.e23) (= (tptp.h1 tptp.e12) tptp.e23) (= (tptp.h1 tptp.e13) tptp.e23) (= (tptp.h1 tptp.e14) tptp.e23)) (or (= (tptp.h1 tptp.e10) tptp.e24) (= (tptp.h1 tptp.e11) tptp.e24) (= (tptp.h1 tptp.e12) tptp.e24) (= (tptp.h1 tptp.e13) tptp.e24) (= (tptp.h1 tptp.e14) tptp.e24))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= (tptp.h2 tptp.e10) tptp.e20) (= (tptp.h2 tptp.e11) tptp.e20) (= (tptp.h2 tptp.e12) tptp.e20) (= (tptp.h2 tptp.e13) tptp.e20) (= (tptp.h2 tptp.e14) tptp.e20)) (or (= (tptp.h2 tptp.e10) tptp.e21) (= (tptp.h2 tptp.e11) tptp.e21) (= (tptp.h2 tptp.e12) tptp.e21) (= (tptp.h2 tptp.e13) tptp.e21) (= (tptp.h2 tptp.e14) tptp.e21)) (or (= (tptp.h2 tptp.e10) tptp.e22) (= (tptp.h2 tptp.e11) tptp.e22) (= (tptp.h2 tptp.e12) tptp.e22) (= (tptp.h2 tptp.e13) tptp.e22) (= (tptp.h2 tptp.e14) tptp.e22)) (or (= (tptp.h2 tptp.e10) tptp.e23) (= (tptp.h2 tptp.e11) tptp.e23) (= (tptp.h2 tptp.e12) tptp.e23) (= (tptp.h2 tptp.e13) tptp.e23) (= (tptp.h2 tptp.e14) tptp.e23)) (or (= (tptp.h2 tptp.e10) tptp.e24) (= (tptp.h2 tptp.e11) tptp.e24) (= (tptp.h2 tptp.e12) tptp.e24) (= (tptp.h2 tptp.e13) tptp.e24) (= (tptp.h2 tptp.e14) tptp.e24))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= (tptp.h3 tptp.e10) tptp.e20) (= (tptp.h3 tptp.e11) tptp.e20) (= (tptp.h3 tptp.e12) tptp.e20) (= (tptp.h3 tptp.e13) tptp.e20) (= (tptp.h3 tptp.e14) tptp.e20)) (or (= (tptp.h3 tptp.e10) tptp.e21) (= (tptp.h3 tptp.e11) tptp.e21) (= (tptp.h3 tptp.e12) tptp.e21) (= (tptp.h3 tptp.e13) tptp.e21) (= (tptp.h3 tptp.e14) tptp.e21)) (or (= (tptp.h3 tptp.e10) tptp.e22) (= (tptp.h3 tptp.e11) tptp.e22) (= (tptp.h3 tptp.e12) tptp.e22) (= (tptp.h3 tptp.e13) tptp.e22) (= (tptp.h3 tptp.e14) tptp.e22)) (or (= (tptp.h3 tptp.e10) tptp.e23) (= (tptp.h3 tptp.e11) tptp.e23) (= (tptp.h3 tptp.e12) tptp.e23) (= (tptp.h3 tptp.e13) tptp.e23) (= (tptp.h3 tptp.e14) tptp.e23)) (or (= (tptp.h3 tptp.e10) tptp.e24) (= (tptp.h3 tptp.e11) tptp.e24) (= (tptp.h3 tptp.e12) tptp.e24) (= (tptp.h3 tptp.e13) tptp.e24) (= (tptp.h3 tptp.e14) tptp.e24))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= (tptp.h4 tptp.e10) tptp.e20) (= (tptp.h4 tptp.e11) tptp.e20) (= (tptp.h4 tptp.e12) tptp.e20) (= (tptp.h4 tptp.e13) tptp.e20) (= (tptp.h4 tptp.e14) tptp.e20)) (or (= (tptp.h4 tptp.e10) tptp.e21) (= (tptp.h4 tptp.e11) tptp.e21) (= (tptp.h4 tptp.e12) tptp.e21) (= (tptp.h4 tptp.e13) tptp.e21) (= (tptp.h4 tptp.e14) tptp.e21)) (or (= (tptp.h4 tptp.e10) tptp.e22) (= (tptp.h4 tptp.e11) tptp.e22) (= (tptp.h4 tptp.e12) tptp.e22) (= (tptp.h4 tptp.e13) tptp.e22) (= (tptp.h4 tptp.e14) tptp.e22)) (or (= (tptp.h4 tptp.e10) tptp.e23) (= (tptp.h4 tptp.e11) tptp.e23) (= (tptp.h4 tptp.e12) tptp.e23) (= (tptp.h4 tptp.e13) tptp.e23) (= (tptp.h4 tptp.e14) tptp.e23)) (or (= (tptp.h4 tptp.e10) tptp.e24) (= (tptp.h4 tptp.e11) tptp.e24) (= (tptp.h4 tptp.e12) tptp.e24) (= (tptp.h4 tptp.e13) tptp.e24) (= (tptp.h4 tptp.e14) tptp.e24))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= (tptp.h5 tptp.e10) tptp.e20) (= (tptp.h5 tptp.e11) tptp.e20) (= (tptp.h5 tptp.e12) tptp.e20) (= (tptp.h5 tptp.e13) tptp.e20) (= (tptp.h5 tptp.e14) tptp.e20)) (or (= (tptp.h5 tptp.e10) tptp.e21) (= (tptp.h5 tptp.e11) tptp.e21) (= (tptp.h5 tptp.e12) tptp.e21) (= (tptp.h5 tptp.e13) tptp.e21) (= (tptp.h5 tptp.e14) tptp.e21)) (or (= (tptp.h5 tptp.e10) tptp.e22) (= (tptp.h5 tptp.e11) tptp.e22) (= (tptp.h5 tptp.e12) tptp.e22) (= (tptp.h5 tptp.e13) tptp.e22) (= (tptp.h5 tptp.e14) tptp.e22)) (or (= (tptp.h5 tptp.e10) tptp.e23) (= (tptp.h5 tptp.e11) tptp.e23) (= (tptp.h5 tptp.e12) tptp.e23) (= (tptp.h5 tptp.e13) tptp.e23) (= (tptp.h5 tptp.e14) tptp.e23)) (or (= (tptp.h5 tptp.e10) tptp.e24) (= (tptp.h5 tptp.e11) tptp.e24) (= (tptp.h5 tptp.e12) tptp.e24) (= (tptp.h5 tptp.e13) tptp.e24) (= (tptp.h5 tptp.e14) tptp.e24))))) (not (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14))) (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14))) (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14))) (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14))) (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14))) (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14))) (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14))) (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14))) (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= tptp.e20 (tptp.h3 tptp.e10)) (= tptp.e20 (tptp.h3 tptp.e11)) (= tptp.e20 (tptp.h3 tptp.e12)) (= tptp.e20 (tptp.h3 tptp.e13)) (= tptp.e20 (tptp.h3 tptp.e14))) (or (= tptp.e21 (tptp.h3 tptp.e10)) (= tptp.e21 (tptp.h3 tptp.e11)) (= tptp.e21 (tptp.h3 tptp.e12)) (= tptp.e21 (tptp.h3 tptp.e13)) (= tptp.e21 (tptp.h3 tptp.e14))) (or (= tptp.e22 (tptp.h3 tptp.e10)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e12)) (= tptp.e22 (tptp.h3 tptp.e13)) (= tptp.e22 (tptp.h3 tptp.e14))) (or (= tptp.e23 (tptp.h3 tptp.e10)) (= tptp.e23 (tptp.h3 tptp.e11)) (= tptp.e23 (tptp.h3 tptp.e12)) (= tptp.e23 (tptp.h3 tptp.e13)) (= tptp.e23 (tptp.h3 tptp.e14))) (or (= tptp.e24 (tptp.h3 tptp.e10)) (= tptp.e24 (tptp.h3 tptp.e11)) (= tptp.e24 (tptp.h3 tptp.e12)) (= tptp.e24 (tptp.h3 tptp.e13)) (= tptp.e24 (tptp.h3 tptp.e14)))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14))) (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14))) (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14))) (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14))) (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14))) (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14))) (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14))) (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14))) (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14)))))))) (not (not (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= (tptp.h1 tptp.e10) tptp.e20) (= (tptp.h1 tptp.e11) tptp.e20) (= (tptp.h1 tptp.e12) tptp.e20) (= (tptp.h1 tptp.e13) tptp.e20) (= (tptp.h1 tptp.e14) tptp.e20)) (or (= (tptp.h1 tptp.e10) tptp.e21) (= (tptp.h1 tptp.e11) tptp.e21) (= (tptp.h1 tptp.e12) tptp.e21) (= (tptp.h1 tptp.e13) tptp.e21) (= (tptp.h1 tptp.e14) tptp.e21)) (or (= (tptp.h1 tptp.e10) tptp.e22) (= (tptp.h1 tptp.e11) tptp.e22) (= (tptp.h1 tptp.e12) tptp.e22) (= (tptp.h1 tptp.e13) tptp.e22) (= (tptp.h1 tptp.e14) tptp.e22)) (or (= (tptp.h1 tptp.e10) tptp.e23) (= (tptp.h1 tptp.e11) tptp.e23) (= (tptp.h1 tptp.e12) tptp.e23) (= (tptp.h1 tptp.e13) tptp.e23) (= (tptp.h1 tptp.e14) tptp.e23)) (or (= (tptp.h1 tptp.e10) tptp.e24) (= (tptp.h1 tptp.e11) tptp.e24) (= (tptp.h1 tptp.e12) tptp.e24) (= (tptp.h1 tptp.e13) tptp.e24) (= (tptp.h1 tptp.e14) tptp.e24))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= (tptp.h2 tptp.e10) tptp.e20) (= (tptp.h2 tptp.e11) tptp.e20) (= (tptp.h2 tptp.e12) tptp.e20) (= (tptp.h2 tptp.e13) tptp.e20) (= (tptp.h2 tptp.e14) tptp.e20)) (or (= (tptp.h2 tptp.e10) tptp.e21) (= (tptp.h2 tptp.e11) tptp.e21) (= (tptp.h2 tptp.e12) tptp.e21) (= (tptp.h2 tptp.e13) tptp.e21) (= (tptp.h2 tptp.e14) tptp.e21)) (or (= (tptp.h2 tptp.e10) tptp.e22) (= (tptp.h2 tptp.e11) tptp.e22) (= (tptp.h2 tptp.e12) tptp.e22) (= (tptp.h2 tptp.e13) tptp.e22) (= (tptp.h2 tptp.e14) tptp.e22)) (or (= (tptp.h2 tptp.e10) tptp.e23) (= (tptp.h2 tptp.e11) tptp.e23) (= (tptp.h2 tptp.e12) tptp.e23) (= (tptp.h2 tptp.e13) tptp.e23) (= (tptp.h2 tptp.e14) tptp.e23)) (or (= (tptp.h2 tptp.e10) tptp.e24) (= (tptp.h2 tptp.e11) tptp.e24) (= (tptp.h2 tptp.e12) tptp.e24) (= (tptp.h2 tptp.e13) tptp.e24) (= (tptp.h2 tptp.e14) tptp.e24))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= (tptp.h3 tptp.e10) tptp.e20) (= (tptp.h3 tptp.e11) tptp.e20) (= (tptp.h3 tptp.e12) tptp.e20) (= (tptp.h3 tptp.e13) tptp.e20) (= (tptp.h3 tptp.e14) tptp.e20)) (or (= (tptp.h3 tptp.e10) tptp.e21) (= (tptp.h3 tptp.e11) tptp.e21) (= (tptp.h3 tptp.e12) tptp.e21) (= (tptp.h3 tptp.e13) tptp.e21) (= (tptp.h3 tptp.e14) tptp.e21)) (or (= (tptp.h3 tptp.e10) tptp.e22) (= (tptp.h3 tptp.e11) tptp.e22) (= (tptp.h3 tptp.e12) tptp.e22) (= (tptp.h3 tptp.e13) tptp.e22) (= (tptp.h3 tptp.e14) tptp.e22)) (or (= (tptp.h3 tptp.e10) tptp.e23) (= (tptp.h3 tptp.e11) tptp.e23) (= (tptp.h3 tptp.e12) tptp.e23) (= (tptp.h3 tptp.e13) tptp.e23) (= (tptp.h3 tptp.e14) tptp.e23)) (or (= (tptp.h3 tptp.e10) tptp.e24) (= (tptp.h3 tptp.e11) tptp.e24) (= (tptp.h3 tptp.e12) tptp.e24) (= (tptp.h3 tptp.e13) tptp.e24) (= (tptp.h3 tptp.e14) tptp.e24))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= (tptp.h4 tptp.e10) tptp.e20) (= (tptp.h4 tptp.e11) tptp.e20) (= (tptp.h4 tptp.e12) tptp.e20) (= (tptp.h4 tptp.e13) tptp.e20) (= (tptp.h4 tptp.e14) tptp.e20)) (or (= (tptp.h4 tptp.e10) tptp.e21) (= (tptp.h4 tptp.e11) tptp.e21) (= (tptp.h4 tptp.e12) tptp.e21) (= (tptp.h4 tptp.e13) tptp.e21) (= (tptp.h4 tptp.e14) tptp.e21)) (or (= (tptp.h4 tptp.e10) tptp.e22) (= (tptp.h4 tptp.e11) tptp.e22) (= (tptp.h4 tptp.e12) tptp.e22) (= (tptp.h4 tptp.e13) tptp.e22) (= (tptp.h4 tptp.e14) tptp.e22)) (or (= (tptp.h4 tptp.e10) tptp.e23) (= (tptp.h4 tptp.e11) tptp.e23) (= (tptp.h4 tptp.e12) tptp.e23) (= (tptp.h4 tptp.e13) tptp.e23) (= (tptp.h4 tptp.e14) tptp.e23)) (or (= (tptp.h4 tptp.e10) tptp.e24) (= (tptp.h4 tptp.e11) tptp.e24) (= (tptp.h4 tptp.e12) tptp.e24) (= (tptp.h4 tptp.e13) tptp.e24) (= (tptp.h4 tptp.e14) tptp.e24))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= (tptp.h5 tptp.e10) tptp.e20) (= (tptp.h5 tptp.e11) tptp.e20) (= (tptp.h5 tptp.e12) tptp.e20) (= (tptp.h5 tptp.e13) tptp.e20) (= (tptp.h5 tptp.e14) tptp.e20)) (or (= (tptp.h5 tptp.e10) tptp.e21) (= (tptp.h5 tptp.e11) tptp.e21) (= (tptp.h5 tptp.e12) tptp.e21) (= (tptp.h5 tptp.e13) tptp.e21) (= (tptp.h5 tptp.e14) tptp.e21)) (or (= (tptp.h5 tptp.e10) tptp.e22) (= (tptp.h5 tptp.e11) tptp.e22) (= (tptp.h5 tptp.e12) tptp.e22) (= (tptp.h5 tptp.e13) tptp.e22) (= (tptp.h5 tptp.e14) tptp.e22)) (or (= (tptp.h5 tptp.e10) tptp.e23) (= (tptp.h5 tptp.e11) tptp.e23) (= (tptp.h5 tptp.e12) tptp.e23) (= (tptp.h5 tptp.e13) tptp.e23) (= (tptp.h5 tptp.e14) tptp.e23)) (or (= (tptp.h5 tptp.e10) tptp.e24) (= (tptp.h5 tptp.e11) tptp.e24) (= (tptp.h5 tptp.e12) tptp.e24) (= (tptp.h5 tptp.e13) tptp.e24) (= (tptp.h5 tptp.e14) tptp.e24)))))) (not (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14))) (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14))) (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14))) (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14))) (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14))) (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14))) (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14))) (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14))) (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= tptp.e20 (tptp.h3 tptp.e10)) (= tptp.e20 (tptp.h3 tptp.e11)) (= tptp.e20 (tptp.h3 tptp.e12)) (= tptp.e20 (tptp.h3 tptp.e13)) (= tptp.e20 (tptp.h3 tptp.e14))) (or (= tptp.e21 (tptp.h3 tptp.e10)) (= tptp.e21 (tptp.h3 tptp.e11)) (= tptp.e21 (tptp.h3 tptp.e12)) (= tptp.e21 (tptp.h3 tptp.e13)) (= tptp.e21 (tptp.h3 tptp.e14))) (or (= tptp.e22 (tptp.h3 tptp.e10)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e12)) (= tptp.e22 (tptp.h3 tptp.e13)) (= tptp.e22 (tptp.h3 tptp.e14))) (or (= tptp.e23 (tptp.h3 tptp.e10)) (= tptp.e23 (tptp.h3 tptp.e11)) (= tptp.e23 (tptp.h3 tptp.e12)) (= tptp.e23 (tptp.h3 tptp.e13)) (= tptp.e23 (tptp.h3 tptp.e14))) (or (= tptp.e24 (tptp.h3 tptp.e10)) (= tptp.e24 (tptp.h3 tptp.e11)) (= tptp.e24 (tptp.h3 tptp.e12)) (= tptp.e24 (tptp.h3 tptp.e13)) (= tptp.e24 (tptp.h3 tptp.e14)))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14))) (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14))) (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14))) (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14))) (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14))) (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14))) (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14))) (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14))) (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14))))))) :rule equiv_pos2)
% 32.25/32.44 (step t464 (cl (= (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t465 (cl (= (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t466 (cl (= (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t467 (cl (= (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t468 (cl (= (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t469 (cl (= (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t470 (cl (= (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t471 (cl (= (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t472 (cl (= (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t473 (cl (= (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t474 (cl (= (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t475 (cl (= (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t476 (cl (= (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t477 (cl (= (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t478 (cl (= (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t479 (cl (= (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t480 (cl (= (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t481 (cl (= (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t482 (cl (= (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t483 (cl (= (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t484 (cl (= (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t485 (cl (= (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t486 (cl (= (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t487 (cl (= (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t488 (cl (= (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t489 (cl (= (= (tptp.h1 tptp.e10) tptp.e20) (= tptp.e20 (tptp.h1 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t490 (cl (= (= (tptp.h1 tptp.e11) tptp.e20) (= tptp.e20 (tptp.h1 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t491 (cl (= (= (tptp.h1 tptp.e12) tptp.e20) (= tptp.e20 (tptp.h1 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t492 (cl (= (= (tptp.h1 tptp.e13) tptp.e20) (= tptp.e20 (tptp.h1 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t493 (cl (= (= (tptp.h1 tptp.e14) tptp.e20) (= tptp.e20 (tptp.h1 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t494 (cl (= (or (= (tptp.h1 tptp.e10) tptp.e20) (= (tptp.h1 tptp.e11) tptp.e20) (= (tptp.h1 tptp.e12) tptp.e20) (= (tptp.h1 tptp.e13) tptp.e20) (= (tptp.h1 tptp.e14) tptp.e20)) (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14))))) :rule cong :premises (t489 t490 t491 t492 t493))
% 32.25/32.44 (step t495 (cl (= (= (tptp.h1 tptp.e10) tptp.e21) (= tptp.e21 (tptp.h1 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t496 (cl (= (= (tptp.h1 tptp.e11) tptp.e21) (= tptp.e21 (tptp.h1 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t497 (cl (= (= (tptp.h1 tptp.e12) tptp.e21) (= tptp.e21 (tptp.h1 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t498 (cl (= (= (tptp.h1 tptp.e13) tptp.e21) (= tptp.e21 (tptp.h1 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t499 (cl (= (= (tptp.h1 tptp.e14) tptp.e21) (= tptp.e21 (tptp.h1 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t500 (cl (= (or (= (tptp.h1 tptp.e10) tptp.e21) (= (tptp.h1 tptp.e11) tptp.e21) (= (tptp.h1 tptp.e12) tptp.e21) (= (tptp.h1 tptp.e13) tptp.e21) (= (tptp.h1 tptp.e14) tptp.e21)) (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14))))) :rule cong :premises (t495 t496 t497 t498 t499))
% 32.25/32.44 (step t501 (cl (= (= (tptp.h1 tptp.e10) tptp.e22) (= tptp.e22 (tptp.h1 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t502 (cl (= (= (tptp.h1 tptp.e11) tptp.e22) (= tptp.e22 (tptp.h1 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t503 (cl (= (= (tptp.h1 tptp.e12) tptp.e22) (= tptp.e22 (tptp.h1 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t504 (cl (= (= (tptp.h1 tptp.e13) tptp.e22) (= tptp.e22 (tptp.h1 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t505 (cl (= (= (tptp.h1 tptp.e14) tptp.e22) (= tptp.e22 (tptp.h1 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t506 (cl (= (or (= (tptp.h1 tptp.e10) tptp.e22) (= (tptp.h1 tptp.e11) tptp.e22) (= (tptp.h1 tptp.e12) tptp.e22) (= (tptp.h1 tptp.e13) tptp.e22) (= (tptp.h1 tptp.e14) tptp.e22)) (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14))))) :rule cong :premises (t501 t502 t503 t504 t505))
% 32.25/32.44 (step t507 (cl (= (= (tptp.h1 tptp.e10) tptp.e23) (= tptp.e23 (tptp.h1 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t508 (cl (= (= (tptp.h1 tptp.e11) tptp.e23) (= tptp.e23 (tptp.h1 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t509 (cl (= (= (tptp.h1 tptp.e12) tptp.e23) (= tptp.e23 (tptp.h1 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t510 (cl (= (= (tptp.h1 tptp.e13) tptp.e23) (= tptp.e23 (tptp.h1 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t511 (cl (= (= (tptp.h1 tptp.e14) tptp.e23) (= tptp.e23 (tptp.h1 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t512 (cl (= (or (= (tptp.h1 tptp.e10) tptp.e23) (= (tptp.h1 tptp.e11) tptp.e23) (= (tptp.h1 tptp.e12) tptp.e23) (= (tptp.h1 tptp.e13) tptp.e23) (= (tptp.h1 tptp.e14) tptp.e23)) (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14))))) :rule cong :premises (t507 t508 t509 t510 t511))
% 32.25/32.44 (step t513 (cl (= (= (tptp.h1 tptp.e10) tptp.e24) (= tptp.e24 (tptp.h1 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t514 (cl (= (= (tptp.h1 tptp.e11) tptp.e24) (= tptp.e24 (tptp.h1 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t515 (cl (= (= (tptp.h1 tptp.e12) tptp.e24) (= tptp.e24 (tptp.h1 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t516 (cl (= (= (tptp.h1 tptp.e13) tptp.e24) (= tptp.e24 (tptp.h1 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t517 (cl (= (= (tptp.h1 tptp.e14) tptp.e24) (= tptp.e24 (tptp.h1 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t518 (cl (= (or (= (tptp.h1 tptp.e10) tptp.e24) (= (tptp.h1 tptp.e11) tptp.e24) (= (tptp.h1 tptp.e12) tptp.e24) (= (tptp.h1 tptp.e13) tptp.e24) (= (tptp.h1 tptp.e14) tptp.e24)) (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14))))) :rule cong :premises (t513 t514 t515 t516 t517))
% 32.25/32.44 (step t519 (cl (= (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= (tptp.h1 tptp.e10) tptp.e20) (= (tptp.h1 tptp.e11) tptp.e20) (= (tptp.h1 tptp.e12) tptp.e20) (= (tptp.h1 tptp.e13) tptp.e20) (= (tptp.h1 tptp.e14) tptp.e20)) (or (= (tptp.h1 tptp.e10) tptp.e21) (= (tptp.h1 tptp.e11) tptp.e21) (= (tptp.h1 tptp.e12) tptp.e21) (= (tptp.h1 tptp.e13) tptp.e21) (= (tptp.h1 tptp.e14) tptp.e21)) (or (= (tptp.h1 tptp.e10) tptp.e22) (= (tptp.h1 tptp.e11) tptp.e22) (= (tptp.h1 tptp.e12) tptp.e22) (= (tptp.h1 tptp.e13) tptp.e22) (= (tptp.h1 tptp.e14) tptp.e22)) (or (= (tptp.h1 tptp.e10) tptp.e23) (= (tptp.h1 tptp.e11) tptp.e23) (= (tptp.h1 tptp.e12) tptp.e23) (= (tptp.h1 tptp.e13) tptp.e23) (= (tptp.h1 tptp.e14) tptp.e23)) (or (= (tptp.h1 tptp.e10) tptp.e24) (= (tptp.h1 tptp.e11) tptp.e24) (= (tptp.h1 tptp.e12) tptp.e24) (= (tptp.h1 tptp.e13) tptp.e24) (= (tptp.h1 tptp.e14) tptp.e24))) (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14))) (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14))) (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14))) (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14))) (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))))) :rule cong :premises (t464 t465 t466 t467 t468 t469 t470 t471 t472 t473 t474 t475 t476 t477 t478 t479 t480 t481 t482 t483 t484 t485 t486 t487 t488 t494 t500 t506 t512 t518))
% 32.25/32.44 (step t520 (cl (= (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t521 (cl (= (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t522 (cl (= (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t523 (cl (= (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t524 (cl (= (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t525 (cl (= (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t526 (cl (= (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t527 (cl (= (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t528 (cl (= (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t529 (cl (= (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t530 (cl (= (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t531 (cl (= (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t532 (cl (= (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t533 (cl (= (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t534 (cl (= (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t535 (cl (= (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t536 (cl (= (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t537 (cl (= (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t538 (cl (= (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t539 (cl (= (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t540 (cl (= (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t541 (cl (= (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t542 (cl (= (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t543 (cl (= (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t544 (cl (= (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t545 (cl (= (= (tptp.h2 tptp.e10) tptp.e20) (= tptp.e20 (tptp.h2 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t546 (cl (= (= (tptp.h2 tptp.e11) tptp.e20) (= tptp.e20 (tptp.h2 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t547 (cl (= (= (tptp.h2 tptp.e12) tptp.e20) (= tptp.e20 (tptp.h2 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t548 (cl (= (= (tptp.h2 tptp.e13) tptp.e20) (= tptp.e20 (tptp.h2 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t549 (cl (= (= (tptp.h2 tptp.e14) tptp.e20) (= tptp.e20 (tptp.h2 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t550 (cl (= (or (= (tptp.h2 tptp.e10) tptp.e20) (= (tptp.h2 tptp.e11) tptp.e20) (= (tptp.h2 tptp.e12) tptp.e20) (= (tptp.h2 tptp.e13) tptp.e20) (= (tptp.h2 tptp.e14) tptp.e20)) (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14))))) :rule cong :premises (t545 t546 t547 t548 t549))
% 32.25/32.44 (step t551 (cl (= (= (tptp.h2 tptp.e10) tptp.e21) (= tptp.e21 (tptp.h2 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t552 (cl (= (= (tptp.h2 tptp.e11) tptp.e21) (= tptp.e21 (tptp.h2 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t553 (cl (= (= (tptp.h2 tptp.e12) tptp.e21) (= tptp.e21 (tptp.h2 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t554 (cl (= (= (tptp.h2 tptp.e13) tptp.e21) (= tptp.e21 (tptp.h2 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t555 (cl (= (= (tptp.h2 tptp.e14) tptp.e21) (= tptp.e21 (tptp.h2 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t556 (cl (= (or (= (tptp.h2 tptp.e10) tptp.e21) (= (tptp.h2 tptp.e11) tptp.e21) (= (tptp.h2 tptp.e12) tptp.e21) (= (tptp.h2 tptp.e13) tptp.e21) (= (tptp.h2 tptp.e14) tptp.e21)) (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14))))) :rule cong :premises (t551 t552 t553 t554 t555))
% 32.25/32.44 (step t557 (cl (= (= (tptp.h2 tptp.e10) tptp.e22) (= tptp.e22 (tptp.h2 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t558 (cl (= (= (tptp.h2 tptp.e11) tptp.e22) (= tptp.e22 (tptp.h2 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t559 (cl (= (= (tptp.h2 tptp.e12) tptp.e22) (= tptp.e22 (tptp.h2 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t560 (cl (= (= (tptp.h2 tptp.e13) tptp.e22) (= tptp.e22 (tptp.h2 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t561 (cl (= (= (tptp.h2 tptp.e14) tptp.e22) (= tptp.e22 (tptp.h2 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t562 (cl (= (or (= (tptp.h2 tptp.e10) tptp.e22) (= (tptp.h2 tptp.e11) tptp.e22) (= (tptp.h2 tptp.e12) tptp.e22) (= (tptp.h2 tptp.e13) tptp.e22) (= (tptp.h2 tptp.e14) tptp.e22)) (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14))))) :rule cong :premises (t557 t558 t559 t560 t561))
% 32.25/32.44 (step t563 (cl (= (= (tptp.h2 tptp.e10) tptp.e23) (= tptp.e23 (tptp.h2 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t564 (cl (= (= (tptp.h2 tptp.e11) tptp.e23) (= tptp.e23 (tptp.h2 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t565 (cl (= (= (tptp.h2 tptp.e12) tptp.e23) (= tptp.e23 (tptp.h2 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t566 (cl (= (= (tptp.h2 tptp.e13) tptp.e23) (= tptp.e23 (tptp.h2 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t567 (cl (= (= (tptp.h2 tptp.e14) tptp.e23) (= tptp.e23 (tptp.h2 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t568 (cl (= (or (= (tptp.h2 tptp.e10) tptp.e23) (= (tptp.h2 tptp.e11) tptp.e23) (= (tptp.h2 tptp.e12) tptp.e23) (= (tptp.h2 tptp.e13) tptp.e23) (= (tptp.h2 tptp.e14) tptp.e23)) (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14))))) :rule cong :premises (t563 t564 t565 t566 t567))
% 32.25/32.44 (step t569 (cl (= (= (tptp.h2 tptp.e10) tptp.e24) (= tptp.e24 (tptp.h2 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t570 (cl (= (= (tptp.h2 tptp.e11) tptp.e24) (= tptp.e24 (tptp.h2 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t571 (cl (= (= (tptp.h2 tptp.e12) tptp.e24) (= tptp.e24 (tptp.h2 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t572 (cl (= (= (tptp.h2 tptp.e13) tptp.e24) (= tptp.e24 (tptp.h2 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t573 (cl (= (= (tptp.h2 tptp.e14) tptp.e24) (= tptp.e24 (tptp.h2 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t574 (cl (= (or (= (tptp.h2 tptp.e10) tptp.e24) (= (tptp.h2 tptp.e11) tptp.e24) (= (tptp.h2 tptp.e12) tptp.e24) (= (tptp.h2 tptp.e13) tptp.e24) (= (tptp.h2 tptp.e14) tptp.e24)) (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14))))) :rule cong :premises (t569 t570 t571 t572 t573))
% 32.25/32.44 (step t575 (cl (= (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= (tptp.h2 tptp.e10) tptp.e20) (= (tptp.h2 tptp.e11) tptp.e20) (= (tptp.h2 tptp.e12) tptp.e20) (= (tptp.h2 tptp.e13) tptp.e20) (= (tptp.h2 tptp.e14) tptp.e20)) (or (= (tptp.h2 tptp.e10) tptp.e21) (= (tptp.h2 tptp.e11) tptp.e21) (= (tptp.h2 tptp.e12) tptp.e21) (= (tptp.h2 tptp.e13) tptp.e21) (= (tptp.h2 tptp.e14) tptp.e21)) (or (= (tptp.h2 tptp.e10) tptp.e22) (= (tptp.h2 tptp.e11) tptp.e22) (= (tptp.h2 tptp.e12) tptp.e22) (= (tptp.h2 tptp.e13) tptp.e22) (= (tptp.h2 tptp.e14) tptp.e22)) (or (= (tptp.h2 tptp.e10) tptp.e23) (= (tptp.h2 tptp.e11) tptp.e23) (= (tptp.h2 tptp.e12) tptp.e23) (= (tptp.h2 tptp.e13) tptp.e23) (= (tptp.h2 tptp.e14) tptp.e23)) (or (= (tptp.h2 tptp.e10) tptp.e24) (= (tptp.h2 tptp.e11) tptp.e24) (= (tptp.h2 tptp.e12) tptp.e24) (= (tptp.h2 tptp.e13) tptp.e24) (= (tptp.h2 tptp.e14) tptp.e24))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14))) (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14))) (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14))) (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14))) (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))))) :rule cong :premises (t520 t521 t522 t523 t524 t525 t526 t527 t528 t529 t530 t531 t532 t533 t534 t535 t536 t537 t538 t539 t540 t541 t542 t543 t544 t550 t556 t562 t568 t574))
% 32.25/32.44 (step t576 (cl (= (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t577 (cl (= (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t578 (cl (= (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t579 (cl (= (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t580 (cl (= (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t581 (cl (= (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t582 (cl (= (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t583 (cl (= (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t584 (cl (= (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t585 (cl (= (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t586 (cl (= (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t587 (cl (= (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t588 (cl (= (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t589 (cl (= (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t590 (cl (= (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t591 (cl (= (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t592 (cl (= (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t593 (cl (= (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t594 (cl (= (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t595 (cl (= (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t596 (cl (= (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t597 (cl (= (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t598 (cl (= (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t599 (cl (= (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t600 (cl (= (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t601 (cl (= (= (tptp.h3 tptp.e10) tptp.e20) (= tptp.e20 (tptp.h3 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t602 (cl (= (= (tptp.h3 tptp.e11) tptp.e20) (= tptp.e20 (tptp.h3 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t603 (cl (= (= (tptp.h3 tptp.e12) tptp.e20) (= tptp.e20 (tptp.h3 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t604 (cl (= (= (tptp.h3 tptp.e13) tptp.e20) (= tptp.e20 (tptp.h3 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t605 (cl (= (= (tptp.h3 tptp.e14) tptp.e20) (= tptp.e20 (tptp.h3 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t606 (cl (= (or (= (tptp.h3 tptp.e10) tptp.e20) (= (tptp.h3 tptp.e11) tptp.e20) (= (tptp.h3 tptp.e12) tptp.e20) (= (tptp.h3 tptp.e13) tptp.e20) (= (tptp.h3 tptp.e14) tptp.e20)) (or (= tptp.e20 (tptp.h3 tptp.e10)) (= tptp.e20 (tptp.h3 tptp.e11)) (= tptp.e20 (tptp.h3 tptp.e12)) (= tptp.e20 (tptp.h3 tptp.e13)) (= tptp.e20 (tptp.h3 tptp.e14))))) :rule cong :premises (t601 t602 t603 t604 t605))
% 32.25/32.44 (step t607 (cl (= (= (tptp.h3 tptp.e10) tptp.e21) (= tptp.e21 (tptp.h3 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t608 (cl (= (= (tptp.h3 tptp.e11) tptp.e21) (= tptp.e21 (tptp.h3 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t609 (cl (= (= (tptp.h3 tptp.e12) tptp.e21) (= tptp.e21 (tptp.h3 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t610 (cl (= (= (tptp.h3 tptp.e13) tptp.e21) (= tptp.e21 (tptp.h3 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t611 (cl (= (= (tptp.h3 tptp.e14) tptp.e21) (= tptp.e21 (tptp.h3 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t612 (cl (= (or (= (tptp.h3 tptp.e10) tptp.e21) (= (tptp.h3 tptp.e11) tptp.e21) (= (tptp.h3 tptp.e12) tptp.e21) (= (tptp.h3 tptp.e13) tptp.e21) (= (tptp.h3 tptp.e14) tptp.e21)) (or (= tptp.e21 (tptp.h3 tptp.e10)) (= tptp.e21 (tptp.h3 tptp.e11)) (= tptp.e21 (tptp.h3 tptp.e12)) (= tptp.e21 (tptp.h3 tptp.e13)) (= tptp.e21 (tptp.h3 tptp.e14))))) :rule cong :premises (t607 t608 t609 t610 t611))
% 32.25/32.44 (step t613 (cl (= (= (tptp.h3 tptp.e10) tptp.e22) (= tptp.e22 (tptp.h3 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t614 (cl (= (= (tptp.h3 tptp.e11) tptp.e22) (= tptp.e22 (tptp.h3 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t615 (cl (= (= (tptp.h3 tptp.e12) tptp.e22) (= tptp.e22 (tptp.h3 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t616 (cl (= (= (tptp.h3 tptp.e13) tptp.e22) (= tptp.e22 (tptp.h3 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t617 (cl (= (= (tptp.h3 tptp.e14) tptp.e22) (= tptp.e22 (tptp.h3 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t618 (cl (= (or (= (tptp.h3 tptp.e10) tptp.e22) (= (tptp.h3 tptp.e11) tptp.e22) (= (tptp.h3 tptp.e12) tptp.e22) (= (tptp.h3 tptp.e13) tptp.e22) (= (tptp.h3 tptp.e14) tptp.e22)) (or (= tptp.e22 (tptp.h3 tptp.e10)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e12)) (= tptp.e22 (tptp.h3 tptp.e13)) (= tptp.e22 (tptp.h3 tptp.e14))))) :rule cong :premises (t613 t614 t615 t616 t617))
% 32.25/32.44 (step t619 (cl (= (= (tptp.h3 tptp.e10) tptp.e23) (= tptp.e23 (tptp.h3 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t620 (cl (= (= (tptp.h3 tptp.e11) tptp.e23) (= tptp.e23 (tptp.h3 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t621 (cl (= (= (tptp.h3 tptp.e12) tptp.e23) (= tptp.e23 (tptp.h3 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t622 (cl (= (= (tptp.h3 tptp.e13) tptp.e23) (= tptp.e23 (tptp.h3 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t623 (cl (= (= (tptp.h3 tptp.e14) tptp.e23) (= tptp.e23 (tptp.h3 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t624 (cl (= (or (= (tptp.h3 tptp.e10) tptp.e23) (= (tptp.h3 tptp.e11) tptp.e23) (= (tptp.h3 tptp.e12) tptp.e23) (= (tptp.h3 tptp.e13) tptp.e23) (= (tptp.h3 tptp.e14) tptp.e23)) (or (= tptp.e23 (tptp.h3 tptp.e10)) (= tptp.e23 (tptp.h3 tptp.e11)) (= tptp.e23 (tptp.h3 tptp.e12)) (= tptp.e23 (tptp.h3 tptp.e13)) (= tptp.e23 (tptp.h3 tptp.e14))))) :rule cong :premises (t619 t620 t621 t622 t623))
% 32.25/32.44 (step t625 (cl (= (= (tptp.h3 tptp.e10) tptp.e24) (= tptp.e24 (tptp.h3 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t626 (cl (= (= (tptp.h3 tptp.e11) tptp.e24) (= tptp.e24 (tptp.h3 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t627 (cl (= (= (tptp.h3 tptp.e12) tptp.e24) (= tptp.e24 (tptp.h3 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t628 (cl (= (= (tptp.h3 tptp.e13) tptp.e24) (= tptp.e24 (tptp.h3 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t629 (cl (= (= (tptp.h3 tptp.e14) tptp.e24) (= tptp.e24 (tptp.h3 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t630 (cl (= (or (= (tptp.h3 tptp.e10) tptp.e24) (= (tptp.h3 tptp.e11) tptp.e24) (= (tptp.h3 tptp.e12) tptp.e24) (= (tptp.h3 tptp.e13) tptp.e24) (= (tptp.h3 tptp.e14) tptp.e24)) (or (= tptp.e24 (tptp.h3 tptp.e10)) (= tptp.e24 (tptp.h3 tptp.e11)) (= tptp.e24 (tptp.h3 tptp.e12)) (= tptp.e24 (tptp.h3 tptp.e13)) (= tptp.e24 (tptp.h3 tptp.e14))))) :rule cong :premises (t625 t626 t627 t628 t629))
% 32.25/32.44 (step t631 (cl (= (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= (tptp.h3 tptp.e10) tptp.e20) (= (tptp.h3 tptp.e11) tptp.e20) (= (tptp.h3 tptp.e12) tptp.e20) (= (tptp.h3 tptp.e13) tptp.e20) (= (tptp.h3 tptp.e14) tptp.e20)) (or (= (tptp.h3 tptp.e10) tptp.e21) (= (tptp.h3 tptp.e11) tptp.e21) (= (tptp.h3 tptp.e12) tptp.e21) (= (tptp.h3 tptp.e13) tptp.e21) (= (tptp.h3 tptp.e14) tptp.e21)) (or (= (tptp.h3 tptp.e10) tptp.e22) (= (tptp.h3 tptp.e11) tptp.e22) (= (tptp.h3 tptp.e12) tptp.e22) (= (tptp.h3 tptp.e13) tptp.e22) (= (tptp.h3 tptp.e14) tptp.e22)) (or (= (tptp.h3 tptp.e10) tptp.e23) (= (tptp.h3 tptp.e11) tptp.e23) (= (tptp.h3 tptp.e12) tptp.e23) (= (tptp.h3 tptp.e13) tptp.e23) (= (tptp.h3 tptp.e14) tptp.e23)) (or (= (tptp.h3 tptp.e10) tptp.e24) (= (tptp.h3 tptp.e11) tptp.e24) (= (tptp.h3 tptp.e12) tptp.e24) (= (tptp.h3 tptp.e13) tptp.e24) (= (tptp.h3 tptp.e14) tptp.e24))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= tptp.e20 (tptp.h3 tptp.e10)) (= tptp.e20 (tptp.h3 tptp.e11)) (= tptp.e20 (tptp.h3 tptp.e12)) (= tptp.e20 (tptp.h3 tptp.e13)) (= tptp.e20 (tptp.h3 tptp.e14))) (or (= tptp.e21 (tptp.h3 tptp.e10)) (= tptp.e21 (tptp.h3 tptp.e11)) (= tptp.e21 (tptp.h3 tptp.e12)) (= tptp.e21 (tptp.h3 tptp.e13)) (= tptp.e21 (tptp.h3 tptp.e14))) (or (= tptp.e22 (tptp.h3 tptp.e10)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e12)) (= tptp.e22 (tptp.h3 tptp.e13)) (= tptp.e22 (tptp.h3 tptp.e14))) (or (= tptp.e23 (tptp.h3 tptp.e10)) (= tptp.e23 (tptp.h3 tptp.e11)) (= tptp.e23 (tptp.h3 tptp.e12)) (= tptp.e23 (tptp.h3 tptp.e13)) (= tptp.e23 (tptp.h3 tptp.e14))) (or (= tptp.e24 (tptp.h3 tptp.e10)) (= tptp.e24 (tptp.h3 tptp.e11)) (= tptp.e24 (tptp.h3 tptp.e12)) (= tptp.e24 (tptp.h3 tptp.e13)) (= tptp.e24 (tptp.h3 tptp.e14)))))) :rule cong :premises (t576 t577 t578 t579 t580 t581 t582 t583 t584 t585 t586 t587 t588 t589 t590 t591 t592 t593 t594 t595 t596 t597 t598 t599 t600 t606 t612 t618 t624 t630))
% 32.25/32.44 (step t632 (cl (= (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t633 (cl (= (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t634 (cl (= (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t635 (cl (= (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t636 (cl (= (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t637 (cl (= (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t638 (cl (= (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t639 (cl (= (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t640 (cl (= (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t641 (cl (= (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t642 (cl (= (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t643 (cl (= (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t644 (cl (= (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t645 (cl (= (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t646 (cl (= (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t647 (cl (= (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t648 (cl (= (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t649 (cl (= (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t650 (cl (= (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t651 (cl (= (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t652 (cl (= (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t653 (cl (= (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t654 (cl (= (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t655 (cl (= (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t656 (cl (= (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t657 (cl (= (= (tptp.h4 tptp.e10) tptp.e20) (= tptp.e20 (tptp.h4 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t658 (cl (= (= (tptp.h4 tptp.e11) tptp.e20) (= tptp.e20 (tptp.h4 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t659 (cl (= (= (tptp.h4 tptp.e12) tptp.e20) (= tptp.e20 (tptp.h4 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t660 (cl (= (= (tptp.h4 tptp.e13) tptp.e20) (= tptp.e20 (tptp.h4 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t661 (cl (= (= (tptp.h4 tptp.e14) tptp.e20) (= tptp.e20 (tptp.h4 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t662 (cl (= (or (= (tptp.h4 tptp.e10) tptp.e20) (= (tptp.h4 tptp.e11) tptp.e20) (= (tptp.h4 tptp.e12) tptp.e20) (= (tptp.h4 tptp.e13) tptp.e20) (= (tptp.h4 tptp.e14) tptp.e20)) (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14))))) :rule cong :premises (t657 t658 t659 t660 t661))
% 32.25/32.44 (step t663 (cl (= (= (tptp.h4 tptp.e10) tptp.e21) (= tptp.e21 (tptp.h4 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t664 (cl (= (= (tptp.h4 tptp.e11) tptp.e21) (= tptp.e21 (tptp.h4 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t665 (cl (= (= (tptp.h4 tptp.e12) tptp.e21) (= tptp.e21 (tptp.h4 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t666 (cl (= (= (tptp.h4 tptp.e13) tptp.e21) (= tptp.e21 (tptp.h4 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t667 (cl (= (= (tptp.h4 tptp.e14) tptp.e21) (= tptp.e21 (tptp.h4 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t668 (cl (= (or (= (tptp.h4 tptp.e10) tptp.e21) (= (tptp.h4 tptp.e11) tptp.e21) (= (tptp.h4 tptp.e12) tptp.e21) (= (tptp.h4 tptp.e13) tptp.e21) (= (tptp.h4 tptp.e14) tptp.e21)) (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14))))) :rule cong :premises (t663 t664 t665 t666 t667))
% 32.25/32.44 (step t669 (cl (= (= (tptp.h4 tptp.e10) tptp.e22) (= tptp.e22 (tptp.h4 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t670 (cl (= (= (tptp.h4 tptp.e11) tptp.e22) (= tptp.e22 (tptp.h4 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t671 (cl (= (= (tptp.h4 tptp.e12) tptp.e22) (= tptp.e22 (tptp.h4 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t672 (cl (= (= (tptp.h4 tptp.e13) tptp.e22) (= tptp.e22 (tptp.h4 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t673 (cl (= (= (tptp.h4 tptp.e14) tptp.e22) (= tptp.e22 (tptp.h4 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t674 (cl (= (or (= (tptp.h4 tptp.e10) tptp.e22) (= (tptp.h4 tptp.e11) tptp.e22) (= (tptp.h4 tptp.e12) tptp.e22) (= (tptp.h4 tptp.e13) tptp.e22) (= (tptp.h4 tptp.e14) tptp.e22)) (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14))))) :rule cong :premises (t669 t670 t671 t672 t673))
% 32.25/32.44 (step t675 (cl (= (= (tptp.h4 tptp.e10) tptp.e23) (= tptp.e23 (tptp.h4 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t676 (cl (= (= (tptp.h4 tptp.e11) tptp.e23) (= tptp.e23 (tptp.h4 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t677 (cl (= (= (tptp.h4 tptp.e12) tptp.e23) (= tptp.e23 (tptp.h4 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t678 (cl (= (= (tptp.h4 tptp.e13) tptp.e23) (= tptp.e23 (tptp.h4 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t679 (cl (= (= (tptp.h4 tptp.e14) tptp.e23) (= tptp.e23 (tptp.h4 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t680 (cl (= (or (= (tptp.h4 tptp.e10) tptp.e23) (= (tptp.h4 tptp.e11) tptp.e23) (= (tptp.h4 tptp.e12) tptp.e23) (= (tptp.h4 tptp.e13) tptp.e23) (= (tptp.h4 tptp.e14) tptp.e23)) (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14))))) :rule cong :premises (t675 t676 t677 t678 t679))
% 32.25/32.44 (step t681 (cl (= (= (tptp.h4 tptp.e10) tptp.e24) (= tptp.e24 (tptp.h4 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t682 (cl (= (= (tptp.h4 tptp.e11) tptp.e24) (= tptp.e24 (tptp.h4 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t683 (cl (= (= (tptp.h4 tptp.e12) tptp.e24) (= tptp.e24 (tptp.h4 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t684 (cl (= (= (tptp.h4 tptp.e13) tptp.e24) (= tptp.e24 (tptp.h4 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t685 (cl (= (= (tptp.h4 tptp.e14) tptp.e24) (= tptp.e24 (tptp.h4 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t686 (cl (= (or (= (tptp.h4 tptp.e10) tptp.e24) (= (tptp.h4 tptp.e11) tptp.e24) (= (tptp.h4 tptp.e12) tptp.e24) (= (tptp.h4 tptp.e13) tptp.e24) (= (tptp.h4 tptp.e14) tptp.e24)) (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14))))) :rule cong :premises (t681 t682 t683 t684 t685))
% 32.25/32.44 (step t687 (cl (= (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= (tptp.h4 tptp.e10) tptp.e20) (= (tptp.h4 tptp.e11) tptp.e20) (= (tptp.h4 tptp.e12) tptp.e20) (= (tptp.h4 tptp.e13) tptp.e20) (= (tptp.h4 tptp.e14) tptp.e20)) (or (= (tptp.h4 tptp.e10) tptp.e21) (= (tptp.h4 tptp.e11) tptp.e21) (= (tptp.h4 tptp.e12) tptp.e21) (= (tptp.h4 tptp.e13) tptp.e21) (= (tptp.h4 tptp.e14) tptp.e21)) (or (= (tptp.h4 tptp.e10) tptp.e22) (= (tptp.h4 tptp.e11) tptp.e22) (= (tptp.h4 tptp.e12) tptp.e22) (= (tptp.h4 tptp.e13) tptp.e22) (= (tptp.h4 tptp.e14) tptp.e22)) (or (= (tptp.h4 tptp.e10) tptp.e23) (= (tptp.h4 tptp.e11) tptp.e23) (= (tptp.h4 tptp.e12) tptp.e23) (= (tptp.h4 tptp.e13) tptp.e23) (= (tptp.h4 tptp.e14) tptp.e23)) (or (= (tptp.h4 tptp.e10) tptp.e24) (= (tptp.h4 tptp.e11) tptp.e24) (= (tptp.h4 tptp.e12) tptp.e24) (= (tptp.h4 tptp.e13) tptp.e24) (= (tptp.h4 tptp.e14) tptp.e24))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14))) (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14))) (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14))) (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14))) (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))))) :rule cong :premises (t632 t633 t634 t635 t636 t637 t638 t639 t640 t641 t642 t643 t644 t645 t646 t647 t648 t649 t650 t651 t652 t653 t654 t655 t656 t662 t668 t674 t680 t686))
% 32.25/32.44 (step t688 (cl (= (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t689 (cl (= (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t690 (cl (= (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t691 (cl (= (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t692 (cl (= (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t693 (cl (= (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t694 (cl (= (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t695 (cl (= (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t696 (cl (= (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t697 (cl (= (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t698 (cl (= (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t699 (cl (= (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t700 (cl (= (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t701 (cl (= (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t702 (cl (= (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t703 (cl (= (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t704 (cl (= (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t705 (cl (= (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t706 (cl (= (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t707 (cl (= (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t708 (cl (= (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))))) :rule refl)
% 32.25/32.44 (step t709 (cl (= (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))))) :rule refl)
% 32.25/32.44 (step t710 (cl (= (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))))) :rule refl)
% 32.25/32.44 (step t711 (cl (= (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule refl)
% 32.25/32.44 (step t712 (cl (= (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))))) :rule refl)
% 32.25/32.44 (step t713 (cl (= (= (tptp.h5 tptp.e10) tptp.e20) (= tptp.e20 (tptp.h5 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t714 (cl (= (= (tptp.h5 tptp.e11) tptp.e20) (= tptp.e20 (tptp.h5 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t715 (cl (= (= (tptp.h5 tptp.e12) tptp.e20) (= tptp.e20 (tptp.h5 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t716 (cl (= (= (tptp.h5 tptp.e13) tptp.e20) (= tptp.e20 (tptp.h5 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t717 (cl (= (= (tptp.h5 tptp.e14) tptp.e20) (= tptp.e20 (tptp.h5 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t718 (cl (= (or (= (tptp.h5 tptp.e10) tptp.e20) (= (tptp.h5 tptp.e11) tptp.e20) (= (tptp.h5 tptp.e12) tptp.e20) (= (tptp.h5 tptp.e13) tptp.e20) (= (tptp.h5 tptp.e14) tptp.e20)) (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14))))) :rule cong :premises (t713 t714 t715 t716 t717))
% 32.25/32.44 (step t719 (cl (= (= (tptp.h5 tptp.e10) tptp.e21) (= tptp.e21 (tptp.h5 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t720 (cl (= (= (tptp.h5 tptp.e11) tptp.e21) (= tptp.e21 (tptp.h5 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t721 (cl (= (= (tptp.h5 tptp.e12) tptp.e21) (= tptp.e21 (tptp.h5 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t722 (cl (= (= (tptp.h5 tptp.e13) tptp.e21) (= tptp.e21 (tptp.h5 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t723 (cl (= (= (tptp.h5 tptp.e14) tptp.e21) (= tptp.e21 (tptp.h5 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t724 (cl (= (or (= (tptp.h5 tptp.e10) tptp.e21) (= (tptp.h5 tptp.e11) tptp.e21) (= (tptp.h5 tptp.e12) tptp.e21) (= (tptp.h5 tptp.e13) tptp.e21) (= (tptp.h5 tptp.e14) tptp.e21)) (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14))))) :rule cong :premises (t719 t720 t721 t722 t723))
% 32.25/32.44 (step t725 (cl (= (= (tptp.h5 tptp.e10) tptp.e22) (= tptp.e22 (tptp.h5 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t726 (cl (= (= (tptp.h5 tptp.e11) tptp.e22) (= tptp.e22 (tptp.h5 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t727 (cl (= (= (tptp.h5 tptp.e12) tptp.e22) (= tptp.e22 (tptp.h5 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t728 (cl (= (= (tptp.h5 tptp.e13) tptp.e22) (= tptp.e22 (tptp.h5 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t729 (cl (= (= (tptp.h5 tptp.e14) tptp.e22) (= tptp.e22 (tptp.h5 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t730 (cl (= (or (= (tptp.h5 tptp.e10) tptp.e22) (= (tptp.h5 tptp.e11) tptp.e22) (= (tptp.h5 tptp.e12) tptp.e22) (= (tptp.h5 tptp.e13) tptp.e22) (= (tptp.h5 tptp.e14) tptp.e22)) (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14))))) :rule cong :premises (t725 t726 t727 t728 t729))
% 32.25/32.44 (step t731 (cl (= (= (tptp.h5 tptp.e10) tptp.e23) (= tptp.e23 (tptp.h5 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t732 (cl (= (= (tptp.h5 tptp.e11) tptp.e23) (= tptp.e23 (tptp.h5 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t733 (cl (= (= (tptp.h5 tptp.e12) tptp.e23) (= tptp.e23 (tptp.h5 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t734 (cl (= (= (tptp.h5 tptp.e13) tptp.e23) (= tptp.e23 (tptp.h5 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t735 (cl (= (= (tptp.h5 tptp.e14) tptp.e23) (= tptp.e23 (tptp.h5 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t736 (cl (= (or (= (tptp.h5 tptp.e10) tptp.e23) (= (tptp.h5 tptp.e11) tptp.e23) (= (tptp.h5 tptp.e12) tptp.e23) (= (tptp.h5 tptp.e13) tptp.e23) (= (tptp.h5 tptp.e14) tptp.e23)) (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14))))) :rule cong :premises (t731 t732 t733 t734 t735))
% 32.25/32.44 (step t737 (cl (= (= (tptp.h5 tptp.e10) tptp.e24) (= tptp.e24 (tptp.h5 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t738 (cl (= (= (tptp.h5 tptp.e11) tptp.e24) (= tptp.e24 (tptp.h5 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t739 (cl (= (= (tptp.h5 tptp.e12) tptp.e24) (= tptp.e24 (tptp.h5 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t740 (cl (= (= (tptp.h5 tptp.e13) tptp.e24) (= tptp.e24 (tptp.h5 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t741 (cl (= (= (tptp.h5 tptp.e14) tptp.e24) (= tptp.e24 (tptp.h5 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t742 (cl (= (or (= (tptp.h5 tptp.e10) tptp.e24) (= (tptp.h5 tptp.e11) tptp.e24) (= (tptp.h5 tptp.e12) tptp.e24) (= (tptp.h5 tptp.e13) tptp.e24) (= (tptp.h5 tptp.e14) tptp.e24)) (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14))))) :rule cong :premises (t737 t738 t739 t740 t741))
% 32.25/32.44 (step t743 (cl (= (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= (tptp.h5 tptp.e10) tptp.e20) (= (tptp.h5 tptp.e11) tptp.e20) (= (tptp.h5 tptp.e12) tptp.e20) (= (tptp.h5 tptp.e13) tptp.e20) (= (tptp.h5 tptp.e14) tptp.e20)) (or (= (tptp.h5 tptp.e10) tptp.e21) (= (tptp.h5 tptp.e11) tptp.e21) (= (tptp.h5 tptp.e12) tptp.e21) (= (tptp.h5 tptp.e13) tptp.e21) (= (tptp.h5 tptp.e14) tptp.e21)) (or (= (tptp.h5 tptp.e10) tptp.e22) (= (tptp.h5 tptp.e11) tptp.e22) (= (tptp.h5 tptp.e12) tptp.e22) (= (tptp.h5 tptp.e13) tptp.e22) (= (tptp.h5 tptp.e14) tptp.e22)) (or (= (tptp.h5 tptp.e10) tptp.e23) (= (tptp.h5 tptp.e11) tptp.e23) (= (tptp.h5 tptp.e12) tptp.e23) (= (tptp.h5 tptp.e13) tptp.e23) (= (tptp.h5 tptp.e14) tptp.e23)) (or (= (tptp.h5 tptp.e10) tptp.e24) (= (tptp.h5 tptp.e11) tptp.e24) (= (tptp.h5 tptp.e12) tptp.e24) (= (tptp.h5 tptp.e13) tptp.e24) (= (tptp.h5 tptp.e14) tptp.e24))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14))) (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14))) (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14))) (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14))) (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14)))))) :rule cong :premises (t688 t689 t690 t691 t692 t693 t694 t695 t696 t697 t698 t699 t700 t701 t702 t703 t704 t705 t706 t707 t708 t709 t710 t711 t712 t718 t724 t730 t736 t742))
% 32.25/32.44 (step t744 (cl (= (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= (tptp.h1 tptp.e10) tptp.e20) (= (tptp.h1 tptp.e11) tptp.e20) (= (tptp.h1 tptp.e12) tptp.e20) (= (tptp.h1 tptp.e13) tptp.e20) (= (tptp.h1 tptp.e14) tptp.e20)) (or (= (tptp.h1 tptp.e10) tptp.e21) (= (tptp.h1 tptp.e11) tptp.e21) (= (tptp.h1 tptp.e12) tptp.e21) (= (tptp.h1 tptp.e13) tptp.e21) (= (tptp.h1 tptp.e14) tptp.e21)) (or (= (tptp.h1 tptp.e10) tptp.e22) (= (tptp.h1 tptp.e11) tptp.e22) (= (tptp.h1 tptp.e12) tptp.e22) (= (tptp.h1 tptp.e13) tptp.e22) (= (tptp.h1 tptp.e14) tptp.e22)) (or (= (tptp.h1 tptp.e10) tptp.e23) (= (tptp.h1 tptp.e11) tptp.e23) (= (tptp.h1 tptp.e12) tptp.e23) (= (tptp.h1 tptp.e13) tptp.e23) (= (tptp.h1 tptp.e14) tptp.e23)) (or (= (tptp.h1 tptp.e10) tptp.e24) (= (tptp.h1 tptp.e11) tptp.e24) (= (tptp.h1 tptp.e12) tptp.e24) (= (tptp.h1 tptp.e13) tptp.e24) (= (tptp.h1 tptp.e14) tptp.e24))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= (tptp.h2 tptp.e10) tptp.e20) (= (tptp.h2 tptp.e11) tptp.e20) (= (tptp.h2 tptp.e12) tptp.e20) (= (tptp.h2 tptp.e13) tptp.e20) (= (tptp.h2 tptp.e14) tptp.e20)) (or (= (tptp.h2 tptp.e10) tptp.e21) (= (tptp.h2 tptp.e11) tptp.e21) (= (tptp.h2 tptp.e12) tptp.e21) (= (tptp.h2 tptp.e13) tptp.e21) (= (tptp.h2 tptp.e14) tptp.e21)) (or (= (tptp.h2 tptp.e10) tptp.e22) (= (tptp.h2 tptp.e11) tptp.e22) (= (tptp.h2 tptp.e12) tptp.e22) (= (tptp.h2 tptp.e13) tptp.e22) (= (tptp.h2 tptp.e14) tptp.e22)) (or (= (tptp.h2 tptp.e10) tptp.e23) (= (tptp.h2 tptp.e11) tptp.e23) (= (tptp.h2 tptp.e12) tptp.e23) (= (tptp.h2 tptp.e13) tptp.e23) (= (tptp.h2 tptp.e14) tptp.e23)) (or (= (tptp.h2 tptp.e10) tptp.e24) (= (tptp.h2 tptp.e11) tptp.e24) (= (tptp.h2 tptp.e12) tptp.e24) (= (tptp.h2 tptp.e13) tptp.e24) (= (tptp.h2 tptp.e14) tptp.e24))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= (tptp.h3 tptp.e10) tptp.e20) (= (tptp.h3 tptp.e11) tptp.e20) (= (tptp.h3 tptp.e12) tptp.e20) (= (tptp.h3 tptp.e13) tptp.e20) (= (tptp.h3 tptp.e14) tptp.e20)) (or (= (tptp.h3 tptp.e10) tptp.e21) (= (tptp.h3 tptp.e11) tptp.e21) (= (tptp.h3 tptp.e12) tptp.e21) (= (tptp.h3 tptp.e13) tptp.e21) (= (tptp.h3 tptp.e14) tptp.e21)) (or (= (tptp.h3 tptp.e10) tptp.e22) (= (tptp.h3 tptp.e11) tptp.e22) (= (tptp.h3 tptp.e12) tptp.e22) (= (tptp.h3 tptp.e13) tptp.e22) (= (tptp.h3 tptp.e14) tptp.e22)) (or (= (tptp.h3 tptp.e10) tptp.e23) (= (tptp.h3 tptp.e11) tptp.e23) (= (tptp.h3 tptp.e12) tptp.e23) (= (tptp.h3 tptp.e13) tptp.e23) (= (tptp.h3 tptp.e14) tptp.e23)) (or (= (tptp.h3 tptp.e10) tptp.e24) (= (tptp.h3 tptp.e11) tptp.e24) (= (tptp.h3 tptp.e12) tptp.e24) (= (tptp.h3 tptp.e13) tptp.e24) (= (tptp.h3 tptp.e14) tptp.e24))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= (tptp.h4 tptp.e10) tptp.e20) (= (tptp.h4 tptp.e11) tptp.e20) (= (tptp.h4 tptp.e12) tptp.e20) (= (tptp.h4 tptp.e13) tptp.e20) (= (tptp.h4 tptp.e14) tptp.e20)) (or (= (tptp.h4 tptp.e10) tptp.e21) (= (tptp.h4 tptp.e11) tptp.e21) (= (tptp.h4 tptp.e12) tptp.e21) (= (tptp.h4 tptp.e13) tptp.e21) (= (tptp.h4 tptp.e14) tptp.e21)) (or (= (tptp.h4 tptp.e10) tptp.e22) (= (tptp.h4 tptp.e11) tptp.e22) (= (tptp.h4 tptp.e12) tptp.e22) (= (tptp.h4 tptp.e13) tptp.e22) (= (tptp.h4 tptp.e14) tptp.e22)) (or (= (tptp.h4 tptp.e10) tptp.e23) (= (tptp.h4 tptp.e11) tptp.e23) (= (tptp.h4 tptp.e12) tptp.e23) (= (tptp.h4 tptp.e13) tptp.e23) (= (tptp.h4 tptp.e14) tptp.e23)) (or (= (tptp.h4 tptp.e10) tptp.e24) (= (tptp.h4 tptp.e11) tptp.e24) (= (tptp.h4 tptp.e12) tptp.e24) (= (tptp.h4 tptp.e13) tptp.e24) (= (tptp.h4 tptp.e14) tptp.e24))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= (tptp.h5 tptp.e10) tptp.e20) (= (tptp.h5 tptp.e11) tptp.e20) (= (tptp.h5 tptp.e12) tptp.e20) (= (tptp.h5 tptp.e13) tptp.e20) (= (tptp.h5 tptp.e14) tptp.e20)) (or (= (tptp.h5 tptp.e10) tptp.e21) (= (tptp.h5 tptp.e11) tptp.e21) (= (tptp.h5 tptp.e12) tptp.e21) (= (tptp.h5 tptp.e13) tptp.e21) (= (tptp.h5 tptp.e14) tptp.e21)) (or (= (tptp.h5 tptp.e10) tptp.e22) (= (tptp.h5 tptp.e11) tptp.e22) (= (tptp.h5 tptp.e12) tptp.e22) (= (tptp.h5 tptp.e13) tptp.e22) (= (tptp.h5 tptp.e14) tptp.e22)) (or (= (tptp.h5 tptp.e10) tptp.e23) (= (tptp.h5 tptp.e11) tptp.e23) (= (tptp.h5 tptp.e12) tptp.e23) (= (tptp.h5 tptp.e13) tptp.e23) (= (tptp.h5 tptp.e14) tptp.e23)) (or (= (tptp.h5 tptp.e10) tptp.e24) (= (tptp.h5 tptp.e11) tptp.e24) (= (tptp.h5 tptp.e12) tptp.e24) (= (tptp.h5 tptp.e13) tptp.e24) (= (tptp.h5 tptp.e14) tptp.e24)))) (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14))) (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14))) (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14))) (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14))) (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14))) (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14))) (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14))) (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14))) (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= tptp.e20 (tptp.h3 tptp.e10)) (= tptp.e20 (tptp.h3 tptp.e11)) (= tptp.e20 (tptp.h3 tptp.e12)) (= tptp.e20 (tptp.h3 tptp.e13)) (= tptp.e20 (tptp.h3 tptp.e14))) (or (= tptp.e21 (tptp.h3 tptp.e10)) (= tptp.e21 (tptp.h3 tptp.e11)) (= tptp.e21 (tptp.h3 tptp.e12)) (= tptp.e21 (tptp.h3 tptp.e13)) (= tptp.e21 (tptp.h3 tptp.e14))) (or (= tptp.e22 (tptp.h3 tptp.e10)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e12)) (= tptp.e22 (tptp.h3 tptp.e13)) (= tptp.e22 (tptp.h3 tptp.e14))) (or (= tptp.e23 (tptp.h3 tptp.e10)) (= tptp.e23 (tptp.h3 tptp.e11)) (= tptp.e23 (tptp.h3 tptp.e12)) (= tptp.e23 (tptp.h3 tptp.e13)) (= tptp.e23 (tptp.h3 tptp.e14))) (or (= tptp.e24 (tptp.h3 tptp.e10)) (= tptp.e24 (tptp.h3 tptp.e11)) (= tptp.e24 (tptp.h3 tptp.e12)) (= tptp.e24 (tptp.h3 tptp.e13)) (= tptp.e24 (tptp.h3 tptp.e14)))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14))) (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14))) (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14))) (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14))) (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14))) (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14))) (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14))) (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14))) (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14))))))) :rule cong :premises (t519 t575 t631 t687 t743))
% 32.25/32.44 (step t745 (cl (= (not (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= (tptp.h1 tptp.e10) tptp.e20) (= (tptp.h1 tptp.e11) tptp.e20) (= (tptp.h1 tptp.e12) tptp.e20) (= (tptp.h1 tptp.e13) tptp.e20) (= (tptp.h1 tptp.e14) tptp.e20)) (or (= (tptp.h1 tptp.e10) tptp.e21) (= (tptp.h1 tptp.e11) tptp.e21) (= (tptp.h1 tptp.e12) tptp.e21) (= (tptp.h1 tptp.e13) tptp.e21) (= (tptp.h1 tptp.e14) tptp.e21)) (or (= (tptp.h1 tptp.e10) tptp.e22) (= (tptp.h1 tptp.e11) tptp.e22) (= (tptp.h1 tptp.e12) tptp.e22) (= (tptp.h1 tptp.e13) tptp.e22) (= (tptp.h1 tptp.e14) tptp.e22)) (or (= (tptp.h1 tptp.e10) tptp.e23) (= (tptp.h1 tptp.e11) tptp.e23) (= (tptp.h1 tptp.e12) tptp.e23) (= (tptp.h1 tptp.e13) tptp.e23) (= (tptp.h1 tptp.e14) tptp.e23)) (or (= (tptp.h1 tptp.e10) tptp.e24) (= (tptp.h1 tptp.e11) tptp.e24) (= (tptp.h1 tptp.e12) tptp.e24) (= (tptp.h1 tptp.e13) tptp.e24) (= (tptp.h1 tptp.e14) tptp.e24))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= (tptp.h2 tptp.e10) tptp.e20) (= (tptp.h2 tptp.e11) tptp.e20) (= (tptp.h2 tptp.e12) tptp.e20) (= (tptp.h2 tptp.e13) tptp.e20) (= (tptp.h2 tptp.e14) tptp.e20)) (or (= (tptp.h2 tptp.e10) tptp.e21) (= (tptp.h2 tptp.e11) tptp.e21) (= (tptp.h2 tptp.e12) tptp.e21) (= (tptp.h2 tptp.e13) tptp.e21) (= (tptp.h2 tptp.e14) tptp.e21)) (or (= (tptp.h2 tptp.e10) tptp.e22) (= (tptp.h2 tptp.e11) tptp.e22) (= (tptp.h2 tptp.e12) tptp.e22) (= (tptp.h2 tptp.e13) tptp.e22) (= (tptp.h2 tptp.e14) tptp.e22)) (or (= (tptp.h2 tptp.e10) tptp.e23) (= (tptp.h2 tptp.e11) tptp.e23) (= (tptp.h2 tptp.e12) tptp.e23) (= (tptp.h2 tptp.e13) tptp.e23) (= (tptp.h2 tptp.e14) tptp.e23)) (or (= (tptp.h2 tptp.e10) tptp.e24) (= (tptp.h2 tptp.e11) tptp.e24) (= (tptp.h2 tptp.e12) tptp.e24) (= (tptp.h2 tptp.e13) tptp.e24) (= (tptp.h2 tptp.e14) tptp.e24))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= (tptp.h3 tptp.e10) tptp.e20) (= (tptp.h3 tptp.e11) tptp.e20) (= (tptp.h3 tptp.e12) tptp.e20) (= (tptp.h3 tptp.e13) tptp.e20) (= (tptp.h3 tptp.e14) tptp.e20)) (or (= (tptp.h3 tptp.e10) tptp.e21) (= (tptp.h3 tptp.e11) tptp.e21) (= (tptp.h3 tptp.e12) tptp.e21) (= (tptp.h3 tptp.e13) tptp.e21) (= (tptp.h3 tptp.e14) tptp.e21)) (or (= (tptp.h3 tptp.e10) tptp.e22) (= (tptp.h3 tptp.e11) tptp.e22) (= (tptp.h3 tptp.e12) tptp.e22) (= (tptp.h3 tptp.e13) tptp.e22) (= (tptp.h3 tptp.e14) tptp.e22)) (or (= (tptp.h3 tptp.e10) tptp.e23) (= (tptp.h3 tptp.e11) tptp.e23) (= (tptp.h3 tptp.e12) tptp.e23) (= (tptp.h3 tptp.e13) tptp.e23) (= (tptp.h3 tptp.e14) tptp.e23)) (or (= (tptp.h3 tptp.e10) tptp.e24) (= (tptp.h3 tptp.e11) tptp.e24) (= (tptp.h3 tptp.e12) tptp.e24) (= (tptp.h3 tptp.e13) tptp.e24) (= (tptp.h3 tptp.e14) tptp.e24))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= (tptp.h4 tptp.e10) tptp.e20) (= (tptp.h4 tptp.e11) tptp.e20) (= (tptp.h4 tptp.e12) tptp.e20) (= (tptp.h4 tptp.e13) tptp.e20) (= (tptp.h4 tptp.e14) tptp.e20)) (or (= (tptp.h4 tptp.e10) tptp.e21) (= (tptp.h4 tptp.e11) tptp.e21) (= (tptp.h4 tptp.e12) tptp.e21) (= (tptp.h4 tptp.e13) tptp.e21) (= (tptp.h4 tptp.e14) tptp.e21)) (or (= (tptp.h4 tptp.e10) tptp.e22) (= (tptp.h4 tptp.e11) tptp.e22) (= (tptp.h4 tptp.e12) tptp.e22) (= (tptp.h4 tptp.e13) tptp.e22) (= (tptp.h4 tptp.e14) tptp.e22)) (or (= (tptp.h4 tptp.e10) tptp.e23) (= (tptp.h4 tptp.e11) tptp.e23) (= (tptp.h4 tptp.e12) tptp.e23) (= (tptp.h4 tptp.e13) tptp.e23) (= (tptp.h4 tptp.e14) tptp.e23)) (or (= (tptp.h4 tptp.e10) tptp.e24) (= (tptp.h4 tptp.e11) tptp.e24) (= (tptp.h4 tptp.e12) tptp.e24) (= (tptp.h4 tptp.e13) tptp.e24) (= (tptp.h4 tptp.e14) tptp.e24))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= (tptp.h5 tptp.e10) tptp.e20) (= (tptp.h5 tptp.e11) tptp.e20) (= (tptp.h5 tptp.e12) tptp.e20) (= (tptp.h5 tptp.e13) tptp.e20) (= (tptp.h5 tptp.e14) tptp.e20)) (or (= (tptp.h5 tptp.e10) tptp.e21) (= (tptp.h5 tptp.e11) tptp.e21) (= (tptp.h5 tptp.e12) tptp.e21) (= (tptp.h5 tptp.e13) tptp.e21) (= (tptp.h5 tptp.e14) tptp.e21)) (or (= (tptp.h5 tptp.e10) tptp.e22) (= (tptp.h5 tptp.e11) tptp.e22) (= (tptp.h5 tptp.e12) tptp.e22) (= (tptp.h5 tptp.e13) tptp.e22) (= (tptp.h5 tptp.e14) tptp.e22)) (or (= (tptp.h5 tptp.e10) tptp.e23) (= (tptp.h5 tptp.e11) tptp.e23) (= (tptp.h5 tptp.e12) tptp.e23) (= (tptp.h5 tptp.e13) tptp.e23) (= (tptp.h5 tptp.e14) tptp.e23)) (or (= (tptp.h5 tptp.e10) tptp.e24) (= (tptp.h5 tptp.e11) tptp.e24) (= (tptp.h5 tptp.e12) tptp.e24) (= (tptp.h5 tptp.e13) tptp.e24) (= (tptp.h5 tptp.e14) tptp.e24))))) (not (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14))) (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14))) (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14))) (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14))) (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14))) (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14))) (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14))) (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14))) (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= tptp.e20 (tptp.h3 tptp.e10)) (= tptp.e20 (tptp.h3 tptp.e11)) (= tptp.e20 (tptp.h3 tptp.e12)) (= tptp.e20 (tptp.h3 tptp.e13)) (= tptp.e20 (tptp.h3 tptp.e14))) (or (= tptp.e21 (tptp.h3 tptp.e10)) (= tptp.e21 (tptp.h3 tptp.e11)) (= tptp.e21 (tptp.h3 tptp.e12)) (= tptp.e21 (tptp.h3 tptp.e13)) (= tptp.e21 (tptp.h3 tptp.e14))) (or (= tptp.e22 (tptp.h3 tptp.e10)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e12)) (= tptp.e22 (tptp.h3 tptp.e13)) (= tptp.e22 (tptp.h3 tptp.e14))) (or (= tptp.e23 (tptp.h3 tptp.e10)) (= tptp.e23 (tptp.h3 tptp.e11)) (= tptp.e23 (tptp.h3 tptp.e12)) (= tptp.e23 (tptp.h3 tptp.e13)) (= tptp.e23 (tptp.h3 tptp.e14))) (or (= tptp.e24 (tptp.h3 tptp.e10)) (= tptp.e24 (tptp.h3 tptp.e11)) (= tptp.e24 (tptp.h3 tptp.e12)) (= tptp.e24 (tptp.h3 tptp.e13)) (= tptp.e24 (tptp.h3 tptp.e14)))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14))) (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14))) (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14))) (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14))) (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14))) (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14))) (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14))) (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14))) (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14)))))))) :rule cong :premises (t744))
% 32.25/32.44 (step t746 (cl (not (or (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14))) (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14))) (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14))) (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14))) (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14))) (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14))) (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14))) (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14))) (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (and (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e10) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e11) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e12) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e13) (tptp.h3 tptp.e14))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e10))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e11))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e12))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e13))) (= (tptp.h3 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h3 tptp.e14) (tptp.h3 tptp.e14))) (or (= tptp.e20 (tptp.h3 tptp.e10)) (= tptp.e20 (tptp.h3 tptp.e11)) (= tptp.e20 (tptp.h3 tptp.e12)) (= tptp.e20 (tptp.h3 tptp.e13)) (= tptp.e20 (tptp.h3 tptp.e14))) (or (= tptp.e21 (tptp.h3 tptp.e10)) (= tptp.e21 (tptp.h3 tptp.e11)) (= tptp.e21 (tptp.h3 tptp.e12)) (= tptp.e21 (tptp.h3 tptp.e13)) (= tptp.e21 (tptp.h3 tptp.e14))) (or (= tptp.e22 (tptp.h3 tptp.e10)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e12)) (= tptp.e22 (tptp.h3 tptp.e13)) (= tptp.e22 (tptp.h3 tptp.e14))) (or (= tptp.e23 (tptp.h3 tptp.e10)) (= tptp.e23 (tptp.h3 tptp.e11)) (= tptp.e23 (tptp.h3 tptp.e12)) (= tptp.e23 (tptp.h3 tptp.e13)) (= tptp.e23 (tptp.h3 tptp.e14))) (or (= tptp.e24 (tptp.h3 tptp.e10)) (= tptp.e24 (tptp.h3 tptp.e11)) (= tptp.e24 (tptp.h3 tptp.e12)) (= tptp.e24 (tptp.h3 tptp.e13)) (= tptp.e24 (tptp.h3 tptp.e14)))) (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14))) (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14))) (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14))) (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14))) (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14))) (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14))) (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14))) (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14))) (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14))))))) :rule resolution :premises (t463 t745 a20))
% 32.25/32.44 (step t747 (cl (not (and (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14))) (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14))) (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14))) (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14))) (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))))) :rule not_or :premises (t746))
% 32.25/32.44 (step t748 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14))))) :rule not_and :premises (t747))
% 32.25/32.44 (step t749 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule and_neg)
% 32.25/32.44 (step t750 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t751)
% 32.25/32.44 (assume t751.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.44 (assume t751.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.44 (assume t751.a2 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.44 (assume t751.a3 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t751.a4 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (step t751.t1 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t751.t2)
% 32.25/32.44 (assume t751.t2.a0 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t751.t2.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t751.t2.a2 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.44 (assume t751.t2.a3 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.44 (assume t751.t2.a4 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.44 (step t751.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t751.t2.a4))
% 32.25/32.44 (step t751.t2.t2 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t751.t2.t1))
% 32.25/32.44 (step t751.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.44 (step t751.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule cong :premises (t751.t2.t2 t751.t2.t3))
% 32.25/32.44 (step t751.t2.t5 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t751.t2.a3))
% 32.25/32.44 (step t751.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule trans :premises (t751.t2.t4 t751.t2.t5))
% 32.25/32.44 (step t751.t2.t7 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.h2 tptp.e10))) :rule cong :premises (t751.t2.t6))
% 32.25/32.44 (step t751.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t751.t2.a2))
% 32.25/32.44 (step t751.t2.t9 (cl (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule symm :premises (t751.t2.t8))
% 32.25/32.44 (step t751.t2.t10 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t751.t2.a0))
% 32.25/32.44 (step t751.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule symm :premises (t751.t2.t10))
% 32.25/32.44 (step t751.t2.t12 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t751.t2.a1))
% 32.25/32.44 (step t751.t2.t13 (cl (= tptp.e21 (tptp.h2 tptp.e14))) :rule symm :premises (t751.t2.t12))
% 32.25/32.44 (step t751.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule cong :premises (t751.t2.t11 t751.t2.t13))
% 32.25/32.44 (step t751.t2.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule trans :premises (t751.t2.t7 t751.t2.t9 t751.t2.t14))
% 32.25/32.44 (step t751.t2 (cl (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t751.t2.a0 t751.t2.a1 t751.t2.a2 t751.t2.a3 t751.t2.a4))
% 32.25/32.44 (step t751.t3 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t751.t4 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t751.t5 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t751.t6 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t751.t7 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t751.t8 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t751.t2 t751.t3 t751.t4 t751.t5 t751.t6 t751.t7))
% 32.25/32.44 (step t751.t9 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule reordering :premises (t751.t8))
% 32.25/32.44 (step t751.t10 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule contraction :premises (t751.t9))
% 32.25/32.44 (step t751.t11 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule resolution :premises (t751.t1 t751.t10))
% 32.25/32.44 (step t751.t12 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.25/32.44 (step t751.t13 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))))) :rule resolution :premises (t751.t11 t751.t12))
% 32.25/32.44 (step t751.t14 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))))) :rule contraction :premises (t751.t13))
% 32.25/32.44 (step t751.t15 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule implies :premises (t751.t14))
% 32.25/32.44 (step t751.t16 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.44 (step t751.t17 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t751.t16 t751.a4 t751.a3 t751.a2 t751.a0 t751.a1))
% 32.25/32.44 (step t751.t18 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule resolution :premises (t751.t15 t751.t17))
% 32.25/32.44 (step t751 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t751.a0 t751.a1 t751.a2 t751.a3 t751.a4))
% 32.25/32.44 (step t752 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t753 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t754 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t755 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t756 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t757 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))))) :rule resolution :premises (t751 t752 t753 t754 t755 t756))
% 32.25/32.44 (step t758 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule reordering :premises (t757))
% 32.25/32.44 (step t759 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule contraction :premises (t758))
% 32.25/32.44 (step t760 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule resolution :premises (t750 t759))
% 32.25/32.44 (step t761 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.25/32.44 (step t762 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))))) :rule resolution :premises (t760 t761))
% 32.25/32.44 (step t763 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))))) :rule contraction :premises (t762))
% 32.25/32.44 (step t764 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule implies :premises (t763))
% 32.25/32.44 (step t765 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule resolution :premises (t749 t764))
% 32.25/32.44 (step t766 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule reordering :premises (t765))
% 32.25/32.44 (step t767 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and :premises (a13))
% 32.25/32.44 (step t768 (cl (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and :premises (a13))
% 32.25/32.44 (step t769 (cl (not (= (and (= (tptp.h2 tptp.e14) tptp.e21) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) (not (and (= (tptp.h2 tptp.e14) tptp.e21) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21))))) (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule equiv_pos2)
% 32.25/32.44 (step t770 (cl (= (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))) :rule refl)
% 32.25/32.44 (step t771 (cl (= (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t772 (cl (= (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))) :rule refl)
% 32.25/32.44 (step t773 (cl (= (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t774 (cl (= (and (= (tptp.h2 tptp.e14) tptp.e21) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule cong :premises (t555 t770 t771 t772 t773))
% 32.25/32.44 (step t775 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule resolution :premises (t769 t774 a16))
% 32.25/32.44 (step t776 (cl (= tptp.e21 (tptp.h2 tptp.e14))) :rule and :premises (t775))
% 32.25/32.44 (step t777 (cl (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and :premises (t775))
% 32.25/32.44 (step t778 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and :premises (t775))
% 32.25/32.44 (step t779 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e14)))) :rule resolution :premises (t766 t767 t768 t776 t777 t778))
% 32.25/32.44 (step t780 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.44 (step t781 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t782)
% 32.25/32.44 (assume t782.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.25/32.44 (assume t782.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.44 (assume t782.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.25/32.44 (assume t782.a3 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t782.a4 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (step t782.t1 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t782.t2)
% 32.25/32.44 (assume t782.t2.a0 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (assume t782.t2.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t782.t2.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.25/32.44 (assume t782.t2.a3 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.25/32.44 (assume t782.t2.a4 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.44 (step t782.t2.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t782.t2.a4))
% 32.25/32.44 (step t782.t2.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t782.t2.t1))
% 32.25/32.44 (step t782.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.44 (step t782.t2.t4 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule cong :premises (t782.t2.t2 t782.t2.t3))
% 32.25/32.44 (step t782.t2.t5 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t782.t2.a3))
% 32.25/32.44 (step t782.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule trans :premises (t782.t2.t4 t782.t2.t5))
% 32.25/32.44 (step t782.t2.t7 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.h2 tptp.e12))) :rule cong :premises (t782.t2.t6))
% 32.25/32.44 (step t782.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t782.t2.a2))
% 32.25/32.44 (step t782.t2.t9 (cl (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule symm :premises (t782.t2.t8))
% 32.25/32.44 (step t782.t2.t10 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t782.t2.a0))
% 32.25/32.44 (step t782.t2.t11 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t782.t2.t10))
% 32.25/32.44 (step t782.t2.t12 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t782.t2.a1))
% 32.25/32.44 (step t782.t2.t13 (cl (= tptp.e21 (tptp.h2 tptp.e14))) :rule symm :premises (t782.t2.t12))
% 32.25/32.44 (step t782.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule cong :premises (t782.t2.t11 t782.t2.t13))
% 32.25/32.44 (step t782.t2.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule trans :premises (t782.t2.t7 t782.t2.t9 t782.t2.t14))
% 32.25/32.44 (step t782.t2 (cl (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t782.t2.a0 t782.t2.a1 t782.t2.a2 t782.t2.a3 t782.t2.a4))
% 32.25/32.44 (step t782.t3 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t782.t4 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t782.t5 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t782.t6 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t782.t7 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.44 (step t782.t8 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t782.t2 t782.t3 t782.t4 t782.t5 t782.t6 t782.t7))
% 32.25/32.44 (step t782.t9 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule reordering :premises (t782.t8))
% 32.25/32.44 (step t782.t10 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule contraction :premises (t782.t9))
% 32.25/32.44 (step t782.t11 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule resolution :premises (t782.t1 t782.t10))
% 32.25/32.44 (step t782.t12 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.25/32.44 (step t782.t13 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))))) :rule resolution :premises (t782.t11 t782.t12))
% 32.25/32.44 (step t782.t14 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))))) :rule contraction :premises (t782.t13))
% 32.25/32.44 (step t782.t15 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule implies :premises (t782.t14))
% 32.25/32.44 (step t782.t16 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.25/32.44 (step t782.t17 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t782.t16 t782.a4 t782.a3 t782.a2 t782.a0 t782.a1))
% 32.25/32.44 (step t782.t18 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule resolution :premises (t782.t15 t782.t17))
% 32.25/32.44 (step t782 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t782.a0 t782.a1 t782.a2 t782.a3 t782.a4))
% 32.25/32.44 (step t783 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t784 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.44 (step t785 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t786 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t787 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t788 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t782 t783 t784 t785 t786 t787))
% 32.25/32.44 (step t789 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule reordering :premises (t788))
% 32.25/32.44 (step t790 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule contraction :premises (t789))
% 32.25/32.44 (step t791 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule resolution :premises (t781 t790))
% 32.25/32.44 (step t792 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.25/32.44 (step t793 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))))) :rule resolution :premises (t791 t792))
% 32.25/32.44 (step t794 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))))) :rule contraction :premises (t793))
% 32.25/32.44 (step t795 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule implies :premises (t794))
% 32.25/32.44 (step t796 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule resolution :premises (t780 t795))
% 32.25/32.44 (step t797 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t796))
% 32.25/32.44 (step t798 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and :premises (a13))
% 32.25/32.44 (step t799 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and :premises (a13))
% 32.25/32.44 (step t800 (cl (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and :premises (t775))
% 32.25/32.44 (step t801 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and :premises (t775))
% 32.25/32.44 (step t802 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e14)))) :rule resolution :premises (t797 t798 t799 t776 t800 t801))
% 32.25/32.44 (step t803 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.44 (step t804 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t805)
% 32.25/32.44 (assume t805.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.44 (assume t805.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.44 (assume t805.a2 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t805.a3 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t805.a4 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (step t805.t1 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t805.t2)
% 32.25/32.44 (assume t805.t2.a0 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t805.t2.a1 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t805.t2.a2 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (assume t805.t2.a3 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.44 (assume t805.t2.a4 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.44 (step t805.t2.t1 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.44 (step t805.t2.t2 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t805.t2.a4))
% 32.25/32.44 (step t805.t2.t3 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t805.t2.t2))
% 32.25/32.44 (step t805.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule cong :premises (t805.t2.t1 t805.t2.t3))
% 32.25/32.44 (step t805.t2.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t805.t2.a3))
% 32.25/32.44 (step t805.t2.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t805.t2.t5))
% 32.25/32.44 (step t805.t2.t7 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t805.t2.t6))
% 32.25/32.44 (step t805.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule trans :premises (t805.t2.t4 t805.t2.t7))
% 32.25/32.44 (step t805.t2.t9 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.h2 tptp.e13))) :rule cong :premises (t805.t2.t8))
% 32.25/32.44 (step t805.t2.t10 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t805.t2.a2))
% 32.25/32.44 (step t805.t2.t11 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t805.t2.t10))
% 32.25/32.44 (step t805.t2.t12 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t805.t2.t11))
% 32.25/32.44 (step t805.t2.t13 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t805.t2.a0))
% 32.25/32.44 (step t805.t2.t14 (cl (= tptp.e21 (tptp.h2 tptp.e14))) :rule symm :premises (t805.t2.t13))
% 32.25/32.44 (step t805.t2.t15 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t805.t2.a1))
% 32.25/32.44 (step t805.t2.t16 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule symm :premises (t805.t2.t15))
% 32.25/32.44 (step t805.t2.t17 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t805.t2.t14 t805.t2.t16))
% 32.25/32.44 (step t805.t2.t18 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule trans :premises (t805.t2.t9 t805.t2.t12 t805.t2.t17))
% 32.25/32.44 (step t805.t2 (cl (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t805.t2.a0 t805.t2.a1 t805.t2.a2 t805.t2.a3 t805.t2.a4))
% 32.25/32.44 (step t805.t3 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t805.t4 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t805.t5 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t805.t6 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.44 (step t805.t7 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t805.t8 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t805.t2 t805.t3 t805.t4 t805.t5 t805.t6 t805.t7))
% 32.25/32.44 (step t805.t9 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule reordering :premises (t805.t8))
% 32.25/32.44 (step t805.t10 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule contraction :premises (t805.t9))
% 32.25/32.44 (step t805.t11 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule resolution :premises (t805.t1 t805.t10))
% 32.25/32.44 (step t805.t12 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.25/32.44 (step t805.t13 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))))) :rule resolution :premises (t805.t11 t805.t12))
% 32.25/32.44 (step t805.t14 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))))) :rule contraction :premises (t805.t13))
% 32.25/32.44 (step t805.t15 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule implies :premises (t805.t14))
% 32.25/32.44 (step t805.t16 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.44 (step t805.t17 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t805.t16 t805.a2 t805.a3 t805.a4 t805.a1 t805.a0))
% 32.25/32.44 (step t805.t18 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule resolution :premises (t805.t15 t805.t17))
% 32.25/32.44 (step t805 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t805.a0 t805.a1 t805.a2 t805.a3 t805.a4))
% 32.25/32.44 (step t806 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t807 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.44 (step t808 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t809 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t810 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t811 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t805 t806 t807 t808 t809 t810))
% 32.25/32.44 (step t812 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule reordering :premises (t811))
% 32.25/32.44 (step t813 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule contraction :premises (t812))
% 32.25/32.44 (step t814 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule resolution :premises (t804 t813))
% 32.25/32.44 (step t815 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.25/32.44 (step t816 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))))) :rule resolution :premises (t814 t815))
% 32.25/32.44 (step t817 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))))) :rule contraction :premises (t816))
% 32.25/32.44 (step t818 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule implies :premises (t817))
% 32.25/32.44 (step t819 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule resolution :premises (t803 t818))
% 32.25/32.44 (step t820 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t819))
% 32.25/32.44 (step t821 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule resolution :premises (t820 t767 t799 t776 t778 t801))
% 32.25/32.44 (step t822 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule and_neg)
% 32.25/32.44 (step t823 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t824)
% 32.25/32.44 (assume t824.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.44 (assume t824.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t824.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (step t824.t1 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t824.t2)
% 32.25/32.44 (assume t824.t2.a0 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t824.t2.a1 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t824.t2.a2 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.44 (step t824.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t824.t2.a2))
% 32.25/32.44 (step t824.t2.t2 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t824.t2.t1))
% 32.25/32.44 (step t824.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t824.t2.t2))
% 32.25/32.44 (step t824.t2.t4 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.h2 tptp.e11))) :rule cong :premises (t824.t2.t3))
% 32.25/32.44 (step t824.t2.t5 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t824.t2.a1))
% 32.25/32.44 (step t824.t2.t6 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule symm :premises (t824.t2.t5))
% 32.25/32.44 (step t824.t2.t7 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t824.t2.t6))
% 32.25/32.44 (step t824.t2.t8 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t824.t2.a0))
% 32.25/32.44 (step t824.t2.t9 (cl (= tptp.e21 (tptp.h2 tptp.e14))) :rule symm :premises (t824.t2.t8))
% 32.25/32.44 (step t824.t2.t10 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule cong :premises (t824.t2.t9 t824.t2.t9))
% 32.25/32.44 (step t824.t2.t11 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule trans :premises (t824.t2.t4 t824.t2.t7 t824.t2.t10))
% 32.25/32.44 (step t824.t2 (cl (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t824.t2.a0 t824.t2.a1 t824.t2.a2))
% 32.25/32.44 (step t824.t3 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t824.t4 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t824.t5 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t824.t6 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t824.t2 t824.t3 t824.t4 t824.t5))
% 32.25/32.44 (step t824.t7 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule reordering :premises (t824.t6))
% 32.25/32.44 (step t824.t8 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule contraction :premises (t824.t7))
% 32.25/32.44 (step t824.t9 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule resolution :premises (t824.t1 t824.t8))
% 32.25/32.44 (step t824.t10 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.25/32.44 (step t824.t11 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))))) :rule resolution :premises (t824.t9 t824.t10))
% 32.25/32.44 (step t824.t12 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))))) :rule contraction :premises (t824.t11))
% 32.25/32.44 (step t824.t13 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule implies :premises (t824.t12))
% 32.25/32.44 (step t824.t14 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.44 (step t824.t15 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t824.t14 t824.a1 t824.a2 t824.a0))
% 32.25/32.44 (step t824.t16 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule resolution :premises (t824.t13 t824.t15))
% 32.25/32.44 (step t824 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t824.a0 t824.a1 t824.a2))
% 32.25/32.44 (step t825 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t826 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t827 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t828 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))))) :rule resolution :premises (t824 t825 t826 t827))
% 32.25/32.44 (step t829 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule reordering :premises (t828))
% 32.25/32.44 (step t830 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule contraction :premises (t829))
% 32.25/32.44 (step t831 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule resolution :premises (t823 t830))
% 32.25/32.44 (step t832 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.25/32.44 (step t833 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))))) :rule resolution :premises (t831 t832))
% 32.25/32.44 (step t834 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))))) :rule contraction :premises (t833))
% 32.25/32.44 (step t835 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule implies :premises (t834))
% 32.25/32.44 (step t836 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule resolution :premises (t822 t835))
% 32.25/32.44 (step t837 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule reordering :premises (t836))
% 32.25/32.44 (step t838 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e14)))) :rule resolution :premises (t837 t767 t776 t778))
% 32.25/32.44 (step t839 (cl (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e21 (tptp.h2 tptp.e14)))) :rule or_neg)
% 32.25/32.44 (step t840 (cl (or (= tptp.e21 (tptp.h2 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e11)) (= tptp.e21 (tptp.h2 tptp.e12)) (= tptp.e21 (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)))) :rule resolution :premises (t839 t776))
% 32.25/32.44 (step t841 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.44 (step t842 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t843)
% 32.25/32.44 (assume t843.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.44 (assume t843.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (assume t843.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.44 (assume t843.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.44 (assume t843.a4 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))
% 32.25/32.44 (assume t843.a5 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.44 (assume t843.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.44 (assume t843.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t843.a8 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t843.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (step t843.t1 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t843.t2)
% 32.25/32.44 (assume t843.t2.a0 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.44 (assume t843.t2.a1 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t843.t2.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.44 (assume t843.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (assume t843.t2.a4 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.44 (assume t843.t2.a5 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (assume t843.t2.a6 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t843.t2.a7 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.44 (assume t843.t2.a8 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.44 (assume t843.t2.a9 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))
% 32.25/32.44 (step t843.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14)) :rule symm :premises (t843.t2.a9))
% 32.25/32.44 (step t843.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.h2 tptp.e14))) :rule cong :premises (t843.t2.t1))
% 32.25/32.44 (step t843.t2.t3 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t843.t2.a6))
% 32.25/32.44 (step t843.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t843.t2.a8))
% 32.25/32.44 (step t843.t2.t5 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t843.t2.t4))
% 32.25/32.44 (step t843.t2.t6 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t843.t2.a4))
% 32.25/32.44 (step t843.t2.t7 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t843.t2.t6))
% 32.25/32.44 (step t843.t2.t8 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.44 (step t843.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t843.t2.a3))
% 32.25/32.44 (step t843.t2.t10 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t843.t2.t8 t843.t2.t9))
% 32.25/32.44 (step t843.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t843.t2.a2))
% 32.25/32.44 (step t843.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t843.t2.t11))
% 32.25/32.44 (step t843.t2.t13 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.25/32.44 (step t843.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t843.t2.t12 t843.t2.t13))
% 32.25/32.44 (step t843.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t843.t2.a0))
% 32.25/32.44 (step t843.t2.t16 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t843.t2.t7 t843.t2.t10 t843.t2.t14 t843.t2.t15))
% 32.25/32.44 (step t843.t2.t17 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t843.t2.a7))
% 32.25/32.44 (step t843.t2.t18 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t843.t2.t17))
% 32.25/32.44 (step t843.t2.t19 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t843.t2.t9 t843.t2.t8))
% 32.25/32.44 (step t843.t2.t20 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t843.t2.t12 t843.t2.a1))
% 32.25/32.44 (step t843.t2.t21 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t843.t2.a6 t843.t2.t20))
% 32.25/32.44 (step t843.t2.t22 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t843.t2.a1))
% 32.25/32.44 (step t843.t2.t23 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t843.t2.t3 t843.t2.t22))
% 32.25/32.44 (step t843.t2.t24 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t843.t2.a5))
% 32.25/32.44 (step t843.t2.t25 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t843.t2.t24))
% 32.25/32.44 (step t843.t2.t26 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t843.t2.t18 t843.t2.t19 t843.t2.t21 t843.t2.t23 t843.t2.t25))
% 32.25/32.44 (step t843.t2.t27 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule cong :premises (t843.t2.t16 t843.t2.t26))
% 32.25/32.44 (step t843.t2.t28 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule trans :premises (t843.t2.t2 t843.t2.t3 t843.t2.t5 t843.t2.t27))
% 32.25/32.44 (step t843.t2 (cl (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t843.t2.a0 t843.t2.a1 t843.t2.a2 t843.t2.a3 t843.t2.a4 t843.t2.a5 t843.t2.a6 t843.t2.a7 t843.t2.a8 t843.t2.a9))
% 32.25/32.44 (step t843.t3 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t843.t4 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t843.t5 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t843.t6 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t843.t7 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.44 (step t843.t8 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t843.t9 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t843.t10 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t843.t11 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t843.t12 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t843.t13 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))))) :rule resolution :premises (t843.t2 t843.t3 t843.t4 t843.t5 t843.t6 t843.t7 t843.t8 t843.t9 t843.t10 t843.t11 t843.t12))
% 32.25/32.44 (step t843.t14 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule reordering :premises (t843.t13))
% 32.25/32.44 (step t843.t15 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule contraction :premises (t843.t14))
% 32.25/32.44 (step t843.t16 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule resolution :premises (t843.t1 t843.t15))
% 32.25/32.44 (step t843.t17 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.25/32.44 (step t843.t18 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule resolution :premises (t843.t16 t843.t17))
% 32.25/32.44 (step t843.t19 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule contraction :premises (t843.t18))
% 32.25/32.44 (step t843.t20 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule implies :premises (t843.t19))
% 32.25/32.44 (step t843.t21 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) :rule and_neg)
% 32.25/32.44 (step t843.t22 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) :rule resolution :premises (t843.t21 t843.a3 t843.a8 t843.a5 t843.a1 t843.a2 t843.a9 t843.a7 t843.a0 t843.a6 t843.a4))
% 32.25/32.44 (step t843.t23 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule resolution :premises (t843.t20 t843.t22))
% 32.25/32.44 (step t843 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t843.a0 t843.a1 t843.a2 t843.a3 t843.a4 t843.a5 t843.a6 t843.a7 t843.a8 t843.a9))
% 32.25/32.44 (step t844 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t845 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t846 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.44 (step t847 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t848 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t849 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t850 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t851 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t852 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t853 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t854 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t843 t844 t845 t846 t847 t848 t849 t850 t851 t852 t853))
% 32.25/32.44 (step t855 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule reordering :premises (t854))
% 32.25/32.44 (step t856 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule contraction :premises (t855))
% 32.25/32.44 (step t857 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule resolution :premises (t842 t856))
% 32.25/32.44 (step t858 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.25/32.44 (step t859 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule resolution :premises (t857 t858))
% 32.25/32.44 (step t860 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule contraction :premises (t859))
% 32.25/32.44 (step t861 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule implies :premises (t860))
% 32.25/32.44 (step t862 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule resolution :premises (t841 t861))
% 32.25/32.44 (step t863 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t862))
% 32.25/32.44 (step t864 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and :premises (a14))
% 32.25/32.44 (step t865 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and :premises (a14))
% 32.25/32.44 (step t866 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.44 (step t867 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t868)
% 32.25/32.44 (assume t868.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.44 (assume t868.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (assume t868.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.44 (assume t868.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.44 (assume t868.a4 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.44 (assume t868.a5 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)))
% 32.25/32.44 (assume t868.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.44 (assume t868.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t868.a8 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t868.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (step t868.t1 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t868.t2)
% 32.25/32.44 (assume t868.t2.a0 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (assume t868.t2.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t868.t2.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t868.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.44 (assume t868.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (assume t868.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.44 (assume t868.t2.a6 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.44 (assume t868.t2.a7 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.44 (assume t868.t2.a8 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)))
% 32.25/32.44 (assume t868.t2.a9 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.44 (step t868.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14)) :rule symm :premises (t868.t2.a9))
% 32.25/32.44 (step t868.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.h2 tptp.e14))) :rule cong :premises (t868.t2.t1))
% 32.25/32.44 (step t868.t2.t3 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t868.t2.a1))
% 32.25/32.44 (step t868.t2.t4 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21)) :rule symm :premises (t868.t2.a8))
% 32.25/32.44 (step t868.t2.t5 (cl (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t868.t2.t4))
% 32.25/32.44 (step t868.t2.t6 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t868.t2.a5))
% 32.25/32.44 (step t868.t2.t7 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t868.t2.t6))
% 32.25/32.44 (step t868.t2.t8 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t868.t2.a4))
% 32.25/32.44 (step t868.t2.t9 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.44 (step t868.t2.t10 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t868.t2.t8 t868.t2.t9))
% 32.25/32.44 (step t868.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t868.t2.a3))
% 32.25/32.44 (step t868.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t868.t2.t11))
% 32.25/32.44 (step t868.t2.t13 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t868.t2.t12 t868.t2.a2))
% 32.25/32.44 (step t868.t2.t14 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t868.t2.a1 t868.t2.t13))
% 32.25/32.44 (step t868.t2.t15 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t868.t2.a2))
% 32.25/32.44 (step t868.t2.t16 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t868.t2.t3 t868.t2.t15))
% 32.25/32.44 (step t868.t2.t17 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t868.t2.a0))
% 32.25/32.44 (step t868.t2.t18 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t868.t2.t17))
% 32.25/32.44 (step t868.t2.t19 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t868.t2.t7 t868.t2.t10 t868.t2.t14 t868.t2.t16 t868.t2.t18))
% 32.25/32.44 (step t868.t2.t20 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t868.t2.a7))
% 32.25/32.44 (step t868.t2.t21 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t868.t2.t20))
% 32.25/32.44 (step t868.t2.t22 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t868.t2.t9 t868.t2.t8))
% 32.25/32.44 (step t868.t2.t23 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.25/32.44 (step t868.t2.t24 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t868.t2.t12 t868.t2.t23))
% 32.25/32.44 (step t868.t2.t25 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t868.t2.a6))
% 32.25/32.44 (step t868.t2.t26 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t868.t2.t21 t868.t2.t22 t868.t2.t24 t868.t2.t25))
% 32.25/32.44 (step t868.t2.t27 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule cong :premises (t868.t2.t19 t868.t2.t26))
% 32.25/32.44 (step t868.t2.t28 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule trans :premises (t868.t2.t2 t868.t2.t3 t868.t2.t5 t868.t2.t27))
% 32.25/32.44 (step t868.t2 (cl (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t868.t2.a0 t868.t2.a1 t868.t2.a2 t868.t2.a3 t868.t2.a4 t868.t2.a5 t868.t2.a6 t868.t2.a7 t868.t2.a8 t868.t2.a9))
% 32.25/32.44 (step t868.t3 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t868.t4 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t868.t5 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t868.t6 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t868.t7 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t868.t8 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t868.t9 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t868.t10 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.44 (step t868.t11 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.25/32.44 (step t868.t12 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.44 (step t868.t13 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t868.t2 t868.t3 t868.t4 t868.t5 t868.t6 t868.t7 t868.t8 t868.t9 t868.t10 t868.t11 t868.t12))
% 32.25/32.44 (step t868.t14 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule reordering :premises (t868.t13))
% 32.25/32.44 (step t868.t15 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule contraction :premises (t868.t14))
% 32.25/32.44 (step t868.t16 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule resolution :premises (t868.t1 t868.t15))
% 32.25/32.44 (step t868.t17 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.25/32.44 (step t868.t18 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule resolution :premises (t868.t16 t868.t17))
% 32.25/32.44 (step t868.t19 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule contraction :premises (t868.t18))
% 32.25/32.44 (step t868.t20 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule implies :premises (t868.t19))
% 32.25/32.44 (step t868.t21 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_neg)
% 32.25/32.44 (step t868.t22 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t868.t21 t868.a9 t868.a7 t868.a8 t868.a6 t868.a1 t868.a0 t868.a3 t868.a2 t868.a5 t868.a4))
% 32.25/32.44 (step t868.t23 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule resolution :premises (t868.t20 t868.t22))
% 32.25/32.44 (step t868 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t868.a0 t868.a1 t868.a2 t868.a3 t868.a4 t868.a5 t868.a6 t868.a7 t868.a8 t868.a9))
% 32.25/32.44 (step t869 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t870 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t871 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.44 (step t872 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t873 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.44 (step t874 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.25/32.44 (step t875 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t876 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t877 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t878 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t879 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t868 t869 t870 t871 t872 t873 t874 t875 t876 t877 t878))
% 32.25/32.44 (step t880 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule reordering :premises (t879))
% 32.25/32.44 (step t881 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule contraction :premises (t880))
% 32.25/32.44 (step t882 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule resolution :premises (t867 t881))
% 32.25/32.44 (step t883 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.25/32.44 (step t884 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule resolution :premises (t882 t883))
% 32.25/32.44 (step t885 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule contraction :premises (t884))
% 32.25/32.44 (step t886 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule implies :premises (t885))
% 32.25/32.44 (step t887 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule resolution :premises (t866 t886))
% 32.25/32.44 (step t888 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t887))
% 32.25/32.44 (step t889 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.44 (step t890 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t891)
% 32.25/32.44 (assume t891.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.44 (assume t891.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (assume t891.a2 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))
% 32.25/32.44 (assume t891.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.25/32.44 (assume t891.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.44 (assume t891.a5 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t891.a6 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t891.a7 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (step t891.t1 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t891.t2)
% 32.25/32.44 (assume t891.t2.a0 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.44 (assume t891.t2.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.44 (assume t891.t2.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t891.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.44 (assume t891.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (assume t891.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.44 (assume t891.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.25/32.44 (assume t891.t2.a7 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))
% 32.25/32.44 (step t891.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11)) :rule symm :premises (t891.t2.a7))
% 32.25/32.44 (step t891.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.h2 tptp.e11))) :rule cong :premises (t891.t2.t1))
% 32.25/32.44 (step t891.t2.t3 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t891.t2.a2))
% 32.25/32.44 (step t891.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t891.t2.a3))
% 32.25/32.44 (step t891.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t891.t2.a6))
% 32.25/32.44 (step t891.t2.t6 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t891.t2.t5))
% 32.25/32.44 (step t891.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t891.t2.a5))
% 32.25/32.44 (step t891.t2.t8 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t891.t2.t7))
% 32.25/32.44 (step t891.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t891.t2.a4))
% 32.25/32.44 (step t891.t2.t10 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.44 (step t891.t2.t11 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t891.t2.t9 t891.t2.t10))
% 32.25/32.44 (step t891.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t891.t2.t4))
% 32.25/32.44 (step t891.t2.t13 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t891.t2.t12 t891.t2.a2))
% 32.25/32.44 (step t891.t2.t14 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t891.t2.a1 t891.t2.t13))
% 32.25/32.44 (step t891.t2.t15 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t891.t2.a1))
% 32.25/32.44 (step t891.t2.t16 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t891.t2.t15 t891.t2.t3))
% 32.25/32.44 (step t891.t2.t17 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t891.t2.a0))
% 32.25/32.44 (step t891.t2.t18 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t891.t2.t17))
% 32.25/32.44 (step t891.t2.t19 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t891.t2.t8 t891.t2.t11 t891.t2.t14 t891.t2.t16 t891.t2.t18))
% 32.25/32.44 (step t891.t2.t20 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule cong :premises (t891.t2.t19 t891.t2.t19))
% 32.25/32.44 (step t891.t2.t21 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule trans :premises (t891.t2.t2 t891.t2.t3 t891.t2.t4 t891.t2.t6 t891.t2.t20))
% 32.25/32.44 (step t891.t2 (cl (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t891.t2.a0 t891.t2.a1 t891.t2.a2 t891.t2.a3 t891.t2.a4 t891.t2.a5 t891.t2.a6 t891.t2.a7))
% 32.25/32.44 (step t891.t3 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t891.t4 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t891.t5 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t891.t6 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t891.t7 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t891.t8 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t891.t9 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t891.t10 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t891.t11 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t891.t2 t891.t3 t891.t4 t891.t5 t891.t6 t891.t7 t891.t8 t891.t9 t891.t10))
% 32.25/32.44 (step t891.t12 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule reordering :premises (t891.t11))
% 32.25/32.44 (step t891.t13 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule contraction :premises (t891.t12))
% 32.25/32.44 (step t891.t14 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule resolution :premises (t891.t1 t891.t13))
% 32.25/32.44 (step t891.t15 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.25/32.44 (step t891.t16 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule resolution :premises (t891.t14 t891.t15))
% 32.25/32.44 (step t891.t17 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule contraction :premises (t891.t16))
% 32.25/32.44 (step t891.t18 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule implies :premises (t891.t17))
% 32.25/32.44 (step t891.t19 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule and_neg)
% 32.25/32.44 (step t891.t20 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t891.t19 t891.a7 t891.a5 t891.a6 t891.a4 t891.a1 t891.a0 t891.a3 t891.a2))
% 32.25/32.44 (step t891.t21 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule resolution :premises (t891.t18 t891.t20))
% 32.25/32.44 (step t891 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t891.a0 t891.a1 t891.a2 t891.a3 t891.a4 t891.a5 t891.a6 t891.a7))
% 32.25/32.44 (step t892 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t893 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t894 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t895 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.25/32.44 (step t896 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t897 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.44 (step t898 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t899 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.44 (step t900 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t891 t892 t893 t894 t895 t896 t897 t898 t899))
% 32.25/32.44 (step t901 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule reordering :premises (t900))
% 32.25/32.44 (step t902 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule contraction :premises (t901))
% 32.25/32.44 (step t903 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule resolution :premises (t890 t902))
% 32.25/32.44 (step t904 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.25/32.44 (step t905 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule resolution :premises (t903 t904))
% 32.25/32.44 (step t906 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule contraction :premises (t905))
% 32.25/32.44 (step t907 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule implies :premises (t906))
% 32.25/32.44 (step t908 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule resolution :premises (t889 t907))
% 32.25/32.44 (step t909 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t908))
% 32.25/32.44 (step t910 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule and_neg)
% 32.25/32.44 (step t911 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t912)
% 32.25/32.44 (assume t912.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (assume t912.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.44 (assume t912.a2 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.44 (assume t912.a3 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.44 (assume t912.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.44 (assume t912.a5 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)))
% 32.25/32.44 (assume t912.a6 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (step t912.t1 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies_neg1)
% 32.25/32.44 (anchor :step t912.t2)
% 32.25/32.44 (assume t912.t2.a0 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.44 (assume t912.t2.a1 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.44 (assume t912.t2.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.44 (assume t912.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.44 (assume t912.t2.a4 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.44 (assume t912.t2.a5 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)))
% 32.25/32.44 (assume t912.t2.a6 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.44 (step t912.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11)) :rule symm :premises (t912.t2.a6))
% 32.25/32.44 (step t912.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.h2 tptp.e11))) :rule cong :premises (t912.t2.t1))
% 32.25/32.44 (step t912.t2.t3 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t912.t2.a1))
% 32.25/32.44 (step t912.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t912.t2.a2))
% 32.25/32.44 (step t912.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24)) :rule symm :premises (t912.t2.a5))
% 32.25/32.44 (step t912.t2.t6 (cl (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t912.t2.t5))
% 32.25/32.44 (step t912.t2.t7 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t912.t2.a4))
% 32.25/32.44 (step t912.t2.t8 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t912.t2.t7))
% 32.25/32.44 (step t912.t2.t9 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.44 (step t912.t2.t10 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t912.t2.a3))
% 32.25/32.44 (step t912.t2.t11 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t912.t2.t9 t912.t2.t10))
% 32.25/32.44 (step t912.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t912.t2.t4))
% 32.25/32.44 (step t912.t2.t13 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.25/32.44 (step t912.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t912.t2.t12 t912.t2.t13))
% 32.25/32.44 (step t912.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t912.t2.a0))
% 32.25/32.44 (step t912.t2.t16 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t912.t2.t8 t912.t2.t11 t912.t2.t14 t912.t2.t15))
% 32.25/32.44 (step t912.t2.t17 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule cong :premises (t912.t2.t16 t912.t2.t16))
% 32.25/32.44 (step t912.t2.t18 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule trans :premises (t912.t2.t2 t912.t2.t3 t912.t2.t4 t912.t2.t6 t912.t2.t17))
% 32.25/32.44 (step t912.t2 (cl (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t912.t2.a0 t912.t2.a1 t912.t2.a2 t912.t2.a3 t912.t2.a4 t912.t2.a5 t912.t2.a6))
% 32.25/32.44 (step t912.t3 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t912.t4 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t912.t5 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t912.t6 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t912.t7 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.44 (step t912.t8 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.25/32.44 (step t912.t9 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.44 (step t912.t10 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t912.t2 t912.t3 t912.t4 t912.t5 t912.t6 t912.t7 t912.t8 t912.t9))
% 32.25/32.44 (step t912.t11 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule reordering :premises (t912.t10))
% 32.25/32.44 (step t912.t12 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule contraction :premises (t912.t11))
% 32.25/32.44 (step t912.t13 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule resolution :premises (t912.t1 t912.t12))
% 32.25/32.44 (step t912.t14 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.25/32.44 (step t912.t15 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule resolution :premises (t912.t13 t912.t14))
% 32.25/32.44 (step t912.t16 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule contraction :premises (t912.t15))
% 32.25/32.44 (step t912.t17 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule implies :premises (t912.t16))
% 32.25/32.44 (step t912.t18 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule and_neg)
% 32.25/32.44 (step t912.t19 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t912.t18 t912.a2 t912.a6 t912.a4 t912.a0 t912.a1 t912.a5 t912.a3))
% 32.25/32.44 (step t912.t20 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule resolution :premises (t912.t17 t912.t19))
% 32.25/32.44 (step t912 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t912.a0 t912.a1 t912.a2 t912.a3 t912.a4 t912.a5 t912.a6))
% 32.25/32.44 (step t913 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.44 (step t914 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.44 (step t915 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t916 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.44 (step t917 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.44 (step t918 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.25/32.44 (step t919 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.44 (step t920 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))))) :rule resolution :premises (t912 t913 t914 t915 t916 t917 t918 t919))
% 32.25/32.44 (step t921 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule reordering :premises (t920))
% 32.25/32.44 (step t922 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule contraction :premises (t921))
% 32.25/32.44 (step t923 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule resolution :premises (t911 t922))
% 32.25/32.44 (step t924 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.25/32.44 (step t925 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule resolution :premises (t923 t924))
% 32.25/32.44 (step t926 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule contraction :premises (t925))
% 32.25/32.44 (step t927 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule implies :premises (t926))
% 32.25/32.44 (step t928 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule resolution :premises (t910 t927))
% 32.25/32.44 (step t929 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule reordering :premises (t928))
% 32.25/32.44 (step t930 (cl (not (= (and (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (and (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) (not (and (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (and (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_pos2)
% 32.25/32.44 (step t931 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t932 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t933 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t934 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t935 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t936 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t931 t932 t933 t934 t935))
% 32.25/32.44 (step t937 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t938 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t939 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t940 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t941 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t931 t937 t938 t939 t940))
% 32.25/32.44 (step t942 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t943 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t944 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t945 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t946 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t947 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t942 t943 t944 t945 t946))
% 32.25/32.44 (step t948 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t949 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t950 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t951 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t952 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t942 t948 t949 t950 t951))
% 32.25/32.44 (step t953 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t954 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t955 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t956 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t957 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t958 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t953 t954 t955 t956 t957))
% 32.25/32.44 (step t959 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t960 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t961 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t962 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t963 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t953 t959 t960 t961 t962))
% 32.25/32.44 (step t964 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t965 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t966 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t967 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t968 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t969 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t964 t965 t966 t967 t968))
% 32.25/32.44 (step t970 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t971 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t972 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t973 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t974 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t964 t970 t971 t972 t973))
% 32.25/32.44 (step t975 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t976 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t977 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t978 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t979 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t980 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t975 t976 t977 t978 t979))
% 32.25/32.44 (step t981 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t982 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t983 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t984 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.44 (step t985 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t975 t981 t982 t983 t984))
% 32.25/32.44 (step t986 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t987 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t988 (cl (= (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t989 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t990 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t937 t986 t987 t988 t989))
% 32.25/32.44 (step t991 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t992 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t993 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t994 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t932 t986 t991 t992 t993))
% 32.25/32.44 (step t995 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t996 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.44 (step t997 (cl (= (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.25/32.44 (step t998 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.25/32.44 (step t999 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t948 t995 t996 t997 t998))
% 32.25/32.44 (step t1000 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t1001 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t1002 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)))) :rule all_simplify)
% 32.25/32.44 (step t1003 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t943 t995 t1000 t1001 t1002))
% 32.25/32.45 (step t1004 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1005 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1006 (cl (= (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1007 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1008 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t959 t1004 t1005 t1006 t1007))
% 32.25/32.45 (step t1009 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1010 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1011 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1012 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t954 t1004 t1009 t1010 t1011))
% 32.25/32.45 (step t1013 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1014 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1015 (cl (= (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1016 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1017 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t970 t1013 t1014 t1015 t1016))
% 32.25/32.45 (step t1018 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1019 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1020 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1021 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t965 t1013 t1018 t1019 t1020))
% 32.25/32.45 (step t1022 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1023 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1024 (cl (= (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1025 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1026 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t981 t1022 t1023 t1024 t1025))
% 32.25/32.45 (step t1027 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1028 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1029 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1030 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t976 t1022 t1027 t1028 t1029))
% 32.25/32.45 (step t1031 (cl (= (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1032 (cl (= (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1033 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1034 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule cong :premises (t938 t991 t1031 t1032 t1033))
% 32.25/32.45 (step t1035 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1036 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1037 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t933 t987 t1031 t1035 t1036))
% 32.25/32.45 (step t1038 (cl (= (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1039 (cl (= (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1040 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1041 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14))))) :rule cong :premises (t949 t1000 t1038 t1039 t1040))
% 32.25/32.45 (step t1042 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1043 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1044 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t944 t996 t1038 t1042 t1043))
% 32.25/32.45 (step t1045 (cl (= (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1046 (cl (= (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1047 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1048 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14))))) :rule cong :premises (t960 t1009 t1045 t1046 t1047))
% 32.25/32.45 (step t1049 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1050 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1051 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t955 t1005 t1045 t1049 t1050))
% 32.25/32.45 (step t1052 (cl (= (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1053 (cl (= (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1054 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1055 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))))) :rule cong :premises (t971 t1018 t1052 t1053 t1054))
% 32.25/32.45 (step t1056 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1057 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1058 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t966 t1014 t1052 t1056 t1057))
% 32.25/32.45 (step t1059 (cl (= (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1060 (cl (= (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1061 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1062 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))))) :rule cong :premises (t982 t1027 t1059 t1060 t1061))
% 32.25/32.45 (step t1063 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1064 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1065 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t977 t1023 t1059 t1063 t1064))
% 32.25/32.45 (step t1066 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1067 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1068 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14))))) :rule cong :premises (t939 t992 t1035 t1066 t1067))
% 32.25/32.45 (step t1069 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1070 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule cong :premises (t934 t988 t1032 t1066 t1069))
% 32.25/32.45 (step t1071 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1072 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1073 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule cong :premises (t950 t1001 t1042 t1071 t1072))
% 32.25/32.45 (step t1074 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1075 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13))))) :rule cong :premises (t945 t997 t1039 t1071 t1074))
% 32.25/32.45 (step t1076 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1077 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1078 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule cong :premises (t961 t1010 t1049 t1076 t1077))
% 32.25/32.45 (step t1079 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1080 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))))) :rule cong :premises (t956 t1006 t1046 t1076 t1079))
% 32.25/32.45 (step t1081 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1082 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1083 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule cong :premises (t972 t1019 t1056 t1081 t1082))
% 32.25/32.45 (step t1084 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1085 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13))))) :rule cong :premises (t967 t1015 t1053 t1081 t1084))
% 32.25/32.45 (step t1086 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1087 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1088 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule cong :premises (t983 t1028 t1063 t1086 t1087))
% 32.25/32.45 (step t1089 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1090 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))))) :rule cong :premises (t978 t1024 t1060 t1086 t1089))
% 32.25/32.45 (step t1091 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1092 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t940 t993 t1036 t1069 t1091))
% 32.25/32.45 (step t1093 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t935 t989 t1033 t1067 t1091))
% 32.25/32.45 (step t1094 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1095 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t951 t1002 t1043 t1074 t1094))
% 32.25/32.45 (step t1096 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t946 t998 t1040 t1072 t1094))
% 32.25/32.45 (step t1097 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1098 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t962 t1011 t1050 t1079 t1097))
% 32.25/32.45 (step t1099 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t957 t1007 t1047 t1077 t1097))
% 32.25/32.45 (step t1100 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1101 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t973 t1020 t1057 t1084 t1100))
% 32.25/32.45 (step t1102 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t968 t1016 t1054 t1082 t1100))
% 32.25/32.45 (step t1103 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1104 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t984 t1029 t1064 t1089 t1103))
% 32.25/32.45 (step t1105 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t979 t1025 t1061 t1087 t1103))
% 32.25/32.45 (step t1106 (cl (= (and (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (and (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule cong :premises (t936 t941 t947 t952 t958 t963 t969 t974 t980 t985 t990 t994 t999 t1003 t1008 t1012 t1017 t1021 t1026 t1030 t1034 t1037 t1041 t1044 t1048 t1051 t1055 t1058 t1062 t1065 t1068 t1070 t1073 t1075 t1078 t1080 t1083 t1085 t1088 t1090 t1092 t1093 t1095 t1096 t1098 t1099 t1101 t1102 t1104 t1105))
% 32.25/32.45 (step t1107 (cl (and (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t930 t1106 a2))
% 32.25/32.45 (step t1108 (cl (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule and :premises (t1107))
% 32.25/32.45 (step t1109 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule or :premises (t1108))
% 32.25/32.45 (step t1110 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.45 (step t1111 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule refl)
% 32.25/32.45 (step t1112 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule refl)
% 32.25/32.45 (step t1113 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule refl)
% 32.25/32.45 (step t1114 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule refl)
% 32.25/32.45 (step t1115 (cl (= (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)))) :rule refl)
% 32.25/32.45 (step t1116 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.45 (step t1117 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule equiv1 :premises (t1116))
% 32.25/32.45 (step t1118 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))))) :rule all_simplify)
% 32.25/32.45 (step t1119 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule refl)
% 32.25/32.45 (step t1120 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1121 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule cong :premises (t1119 t1120))
% 32.25/32.45 (step t1122 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) true)) :rule all_simplify)
% 32.25/32.45 (step t1123 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) true)) :rule trans :premises (t1121 t1122))
% 32.25/32.45 (step t1124 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) true)) :rule trans :premises (t1118 t1123))
% 32.25/32.45 (step t1125 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t1117 t1124))
% 32.25/32.45 (step t1126 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule refl)
% 32.25/32.45 (step t1127 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))))) :rule cong :premises (t1111 t1112 t1113 t1114 t1115 t1125 t1126))
% 32.25/32.45 (step t1128 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule and_neg)
% 32.25/32.45 (step t1129 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1130)
% 32.25/32.45 (assume t1130.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1130.a1 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.45 (assume t1130.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.25/32.45 (assume t1130.a3 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.45 (assume t1130.a4 (= tptp.e12 tptp.unit1))
% 32.25/32.45 (assume t1130.a5 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.25/32.45 (step t1130.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1130.t2)
% 32.25/32.45 (assume t1130.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.25/32.45 (assume t1130.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))
% 32.25/32.45 (assume t1130.t2.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))
% 32.25/32.45 (assume t1130.t2.a3 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1130.t2.a4 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.45 (step t1130.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) false) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1130.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) false)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t1130.t2.t1))
% 32.25/32.45 (step t1130.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule symm :premises (t1130.t2.a1))
% 32.25/32.45 (step t1130.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t1130.t2.t3))
% 32.25/32.45 (step t1130.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1130.t2.a3))
% 32.25/32.45 (step t1130.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) :rule symm :premises (t1130.t2.a2))
% 32.25/32.45 (step t1130.t2.t7 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t1130.t2.t6))
% 32.25/32.45 (step t1130.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t1130.t2.t5 t1130.t2.t7))
% 32.25/32.45 (step t1130.t2.t9 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1130.t2.t8))
% 32.25/32.45 (step t1130.t2.t10 (cl (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11)) :rule symm :premises (t1130.t2.a4))
% 32.25/32.45 (step t1130.t2.t11 (cl (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e14 tptp.e14))) :rule trans :premises (t1130.t2.t10 t1130.t2.a3))
% 32.25/32.45 (step t1130.t2.t12 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e10))) :rule symm :premises (t1130.t2.t11))
% 32.25/32.45 (step t1130.t2.t13 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) :rule trans :premises (t1130.t2.t9 t1130.t2.t12))
% 32.25/32.45 (step t1130.t2.t14 (cl (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t1130.t2.t13))
% 32.25/32.45 (step t1130.t2.t15 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule cong :premises (t1130.t2.t4 t1130.t2.t14))
% 32.25/32.45 (step t1130.t2.t16 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.45 (step t1130.t2.t17 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv2 :premises (t1130.t2.t16))
% 32.25/32.45 (step t1130.t2.t18 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule not_not)
% 32.25/32.45 (step t1130.t2.t19 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t1130.t2.t17 t1130.t2.t18))
% 32.25/32.45 (step t1130.t2.t20 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false)) :rule resolution :premises (t1130.t2.t19 t1130.t2.a0))
% 32.25/32.45 (step t1130.t2.t21 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) false)) :rule trans :premises (t1130.t2.t15 t1130.t2.t20))
% 32.25/32.45 (step t1130.t2.t22 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1130.t2.t2 t1130.t2.t21))
% 32.25/32.45 (step t1130.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t1130.t2.a0 t1130.t2.a1 t1130.t2.a2 t1130.t2.a3 t1130.t2.a4))
% 32.25/32.45 (step t1130.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.25/32.45 (step t1130.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.25/32.45 (step t1130.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.25/32.45 (step t1130.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1130.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1130.t8 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1130.t2 t1130.t3 t1130.t4 t1130.t5 t1130.t6 t1130.t7))
% 32.25/32.45 (step t1130.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t1130.t8))
% 32.25/32.45 (step t1130.t10 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t1130.t9))
% 32.25/32.45 (step t1130.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1130.t1 t1130.t10))
% 32.25/32.45 (step t1130.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1130.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1130.t11 t1130.t12))
% 32.25/32.45 (step t1130.t14 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t1130.t13))
% 32.25/32.45 (step t1130.t15 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t1130.t14))
% 32.25/32.45 (step t1130.t16 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule and_neg)
% 32.25/32.45 (step t1130.t17 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1130.t18)
% 32.25/32.45 (assume t1130.t18.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.45 (assume t1130.t18.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.45 (step t1130.t18.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t1130.t18.a1))
% 32.25/32.45 (step t1130.t18.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t1130.t18.t1))
% 32.25/32.45 (step t1130.t18.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.45 (step t1130.t18.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t1130.t18.a0))
% 32.25/32.45 (step t1130.t18.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e12))) :rule cong :premises (t1130.t18.t3 t1130.t18.t4))
% 32.25/32.45 (step t1130.t18.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t1130.t18.t2 t1130.t18.t5))
% 32.25/32.45 (step t1130.t18 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule subproof :discharge (t1130.t18.a0 t1130.t18.a1))
% 32.25/32.45 (step t1130.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.45 (step t1130.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.45 (step t1130.t21 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t1130.t18 t1130.t19 t1130.t20))
% 32.25/32.45 (step t1130.t22 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule reordering :premises (t1130.t21))
% 32.25/32.45 (step t1130.t23 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t1130.t22))
% 32.25/32.45 (step t1130.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t1130.t17 t1130.t23))
% 32.25/32.45 (step t1130.t25 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg2)
% 32.25/32.45 (step t1130.t26 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t1130.t24 t1130.t25))
% 32.25/32.45 (step t1130.t27 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t1130.t26))
% 32.25/32.45 (step t1130.t28 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule implies :premises (t1130.t27))
% 32.25/32.45 (step t1130.t29 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.25/32.45 (step t1130.t30 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t1130.t29 t1130.a4 t1130.a3))
% 32.25/32.45 (step t1130.t31 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t1130.t28 t1130.t30))
% 32.25/32.45 (step t1130.t32 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1130.t33)
% 32.25/32.45 (assume t1130.t33.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.45 (assume t1130.t33.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.25/32.45 (step t1130.t33.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t1130.t33.a1))
% 32.25/32.45 (step t1130.t33.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t1130.t33.t1))
% 32.25/32.45 (step t1130.t33.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.25/32.45 (step t1130.t33.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t1130.t33.a0))
% 32.25/32.45 (step t1130.t33.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e12))) :rule cong :premises (t1130.t33.t3 t1130.t33.t4))
% 32.25/32.45 (step t1130.t33.t6 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t1130.t33.t2 t1130.t33.t5))
% 32.25/32.45 (step t1130.t33 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule subproof :discharge (t1130.t33.a0 t1130.t33.a1))
% 32.25/32.45 (step t1130.t34 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.45 (step t1130.t35 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.25/32.45 (step t1130.t36 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t1130.t33 t1130.t34 t1130.t35))
% 32.25/32.45 (step t1130.t37 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule reordering :premises (t1130.t36))
% 32.25/32.45 (step t1130.t38 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule contraction :premises (t1130.t37))
% 32.25/32.45 (step t1130.t39 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t1130.t32 t1130.t38))
% 32.25/32.45 (step t1130.t40 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg2)
% 32.25/32.45 (step t1130.t41 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t1130.t39 t1130.t40))
% 32.25/32.45 (step t1130.t42 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t1130.t41))
% 32.25/32.45 (step t1130.t43 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule implies :premises (t1130.t42))
% 32.25/32.45 (step t1130.t44 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.25/32.45 (step t1130.t45 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t1130.t44 t1130.a4 t1130.a2))
% 32.25/32.45 (step t1130.t46 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t1130.t43 t1130.t45))
% 32.25/32.45 (step t1130.t47 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1130.t16 t1130.a5 t1130.t31 t1130.t46 t1130.a0 t1130.a1))
% 32.25/32.45 (step t1130.t48 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1130.t15 t1130.t47))
% 32.25/32.45 (step t1130 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t1130.a0 t1130.a1 t1130.a2 t1130.a3 t1130.a4 t1130.a5))
% 32.25/32.45 (step t1131 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1132 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1133 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.25/32.45 (step t1134 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.45 (step t1135 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.45 (step t1136 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.25/32.45 (step t1137 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule resolution :premises (t1130 t1131 t1132 t1133 t1134 t1135 t1136))
% 32.25/32.45 (step t1138 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t1137))
% 32.25/32.45 (step t1139 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t1138))
% 32.25/32.45 (step t1140 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1129 t1139))
% 32.25/32.45 (step t1141 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1142 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1140 t1141))
% 32.25/32.45 (step t1143 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t1142))
% 32.25/32.45 (step t1144 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t1143))
% 32.25/32.45 (step t1145 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1128 t1144))
% 32.25/32.45 (step t1146 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.45 (step t1147 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule or_neg)
% 32.25/32.45 (step t1148 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.25/32.45 (step t1149 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.25/32.45 (step t1150 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.45 (step t1151 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule or_neg)
% 32.25/32.45 (step t1152 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule or_neg)
% 32.25/32.45 (step t1153 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1145 t1146 t1147 t1148 t1149 t1150 t1151 t1152))
% 32.25/32.45 (step t1154 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t1153))
% 32.25/32.45 (step t1155 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1110 t1127 t1154))
% 32.25/32.45 (step t1156 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule or :premises (t1155))
% 32.25/32.45 (step t1157 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t1156))
% 32.25/32.45 (step t1158 (cl (not (= (and (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e14)))) (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e13)))))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e14))))) (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e13))))) :rule equiv_pos2)
% 32.25/32.45 (step t1159 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1160 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t1159))
% 32.25/32.45 (step t1161 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1162 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t1161))
% 32.25/32.45 (step t1163 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1164 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t1163))
% 32.25/32.45 (step t1165 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1166 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t1165))
% 32.25/32.45 (step t1167 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1168 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t1167))
% 32.25/32.45 (step t1169 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1170 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t1169))
% 32.25/32.45 (step t1171 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1172 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t1171))
% 32.25/32.45 (step t1173 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1174 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t1173))
% 32.25/32.45 (step t1175 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1176 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t1175))
% 32.25/32.45 (step t1177 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1178 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t1177))
% 32.25/32.45 (step t1179 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1180 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t1179))
% 32.25/32.45 (step t1181 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e12 tptp.e11)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1182 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t1181))
% 32.25/32.45 (step t1183 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1184 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t1183))
% 32.25/32.45 (step t1185 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e14 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1186 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t1185))
% 32.25/32.45 (step t1187 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e12 tptp.e11)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1188 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t1187))
% 32.25/32.45 (step t1189 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1190 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t1189))
% 32.25/32.45 (step t1191 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e14 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1192 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t1191))
% 32.25/32.45 (step t1193 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1194 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))))) :rule cong :premises (t1193))
% 32.25/32.45 (step t1195 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e14 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1196 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))))) :rule cong :premises (t1195))
% 32.25/32.45 (step t1197 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e14 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1198 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t1197))
% 32.25/32.45 (step t1199 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1200 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t1199))
% 32.25/32.45 (step t1201 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1202 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t1201))
% 32.25/32.45 (step t1203 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1204 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t1203))
% 32.25/32.45 (step t1205 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1206 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t1205))
% 32.25/32.45 (step t1207 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1208 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule cong :premises (t1207))
% 32.25/32.45 (step t1209 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1210 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule cong :premises (t1209))
% 32.25/32.45 (step t1211 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1212 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule cong :premises (t1211))
% 32.25/32.45 (step t1213 (cl (= (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1214 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule cong :premises (t1213))
% 32.25/32.45 (step t1215 (cl (= (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1216 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule cong :premises (t1215))
% 32.25/32.45 (step t1217 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1218 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) :rule cong :premises (t1217))
% 32.25/32.45 (step t1219 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1220 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))))) :rule cong :premises (t1219))
% 32.25/32.45 (step t1221 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e12 tptp.e13)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1222 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))))) :rule cong :premises (t1221))
% 32.25/32.45 (step t1223 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1224 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))))) :rule cong :premises (t1223))
% 32.25/32.45 (step t1225 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e14 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1226 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))))) :rule cong :premises (t1225))
% 32.25/32.45 (step t1227 (cl (= (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e12 tptp.e13)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1228 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) :rule cong :premises (t1227))
% 32.25/32.45 (step t1229 (cl (= (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1230 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) :rule cong :premises (t1229))
% 32.25/32.45 (step t1231 (cl (= (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e14 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1232 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) :rule cong :premises (t1231))
% 32.25/32.45 (step t1233 (cl (= (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e12 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1234 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))))) :rule cong :premises (t1233))
% 32.25/32.45 (step t1235 (cl (= (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e14 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e12 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1236 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))))) :rule cong :premises (t1235))
% 32.25/32.45 (step t1237 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e14 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e13 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1238 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))))) :rule cong :premises (t1237))
% 32.25/32.45 (step t1239 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1240 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t1239))
% 32.25/32.45 (step t1241 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e12 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1242 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t1241))
% 32.25/32.45 (step t1243 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1244 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t1243))
% 32.25/32.45 (step t1245 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1246 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t1245))
% 32.25/32.45 (step t1247 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e12 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1248 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t1247))
% 32.25/32.45 (step t1249 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1250 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t1249))
% 32.25/32.45 (step t1251 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1252 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t1251))
% 32.25/32.45 (step t1253 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e12 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1254 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))))) :rule cong :premises (t1253))
% 32.25/32.45 (step t1255 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e12 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1256 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))))) :rule cong :premises (t1255))
% 32.25/32.45 (step t1257 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1258 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) :rule cong :premises (t1257))
% 32.25/32.45 (step t1259 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1260 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t1259))
% 32.25/32.45 (step t1261 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1262 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t1261))
% 32.25/32.45 (step t1263 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e13)) (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1264 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t1263))
% 32.25/32.45 (step t1265 (cl (= (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1266 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t1265))
% 32.25/32.45 (step t1267 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1268 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t1267))
% 32.25/32.45 (step t1269 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e13)) (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1270 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t1269))
% 32.25/32.45 (step t1271 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1272 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t1271))
% 32.25/32.45 (step t1273 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e13)) (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1274 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t1273))
% 32.25/32.45 (step t1275 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1276 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t1275))
% 32.25/32.45 (step t1277 (cl (= (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1278 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e13))))) :rule cong :premises (t1277))
% 32.25/32.45 (step t1279 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1280 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t1279))
% 32.25/32.45 (step t1281 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1282 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t1281))
% 32.25/32.45 (step t1283 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e13)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1284 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t1283))
% 32.25/32.45 (step t1285 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1286 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t1285))
% 32.25/32.45 (step t1287 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1288 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t1287))
% 32.25/32.45 (step t1289 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e13)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1290 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t1289))
% 32.25/32.45 (step t1291 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1292 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t1291))
% 32.25/32.45 (step t1293 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e13)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1294 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e12))))) :rule cong :premises (t1293))
% 32.25/32.45 (step t1295 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1296 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e12))))) :rule cong :premises (t1295))
% 32.25/32.45 (step t1297 (cl (= (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1298 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e13))))) :rule cong :premises (t1297))
% 32.25/32.45 (step t1299 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e11)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1300 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t1299))
% 32.25/32.45 (step t1301 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1302 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t1301))
% 32.25/32.45 (step t1303 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e13)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1304 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t1303))
% 32.25/32.45 (step t1305 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1306 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t1305))
% 32.25/32.45 (step t1307 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1308 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e11))))) :rule cong :premises (t1307))
% 32.25/32.45 (step t1309 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e13)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1310 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e11))))) :rule cong :premises (t1309))
% 32.25/32.45 (step t1311 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1312 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e11))))) :rule cong :premises (t1311))
% 32.25/32.45 (step t1313 (cl (= (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e13)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1314 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e12))))) :rule cong :premises (t1313))
% 32.25/32.45 (step t1315 (cl (= (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1316 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e12))))) :rule cong :premises (t1315))
% 32.25/32.45 (step t1317 (cl (= (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1318 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e13))))) :rule cong :premises (t1317))
% 32.25/32.45 (step t1319 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1320 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t1319))
% 32.25/32.45 (step t1321 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1322 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t1321))
% 32.25/32.45 (step t1323 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1324 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t1323))
% 32.25/32.45 (step t1325 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1326 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t1325))
% 32.25/32.45 (step t1327 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1328 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t1327))
% 32.25/32.45 (step t1329 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1330 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t1329))
% 32.25/32.45 (step t1331 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1332 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t1331))
% 32.25/32.45 (step t1333 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1334 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))))) :rule cong :premises (t1333))
% 32.25/32.45 (step t1335 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1336 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) :rule cong :premises (t1335))
% 32.25/32.45 (step t1337 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1338 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) :rule cong :premises (t1337))
% 32.25/32.45 (step t1339 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1340 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t1339))
% 32.25/32.45 (step t1341 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1342 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t1341))
% 32.25/32.45 (step t1343 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1344 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t1343))
% 32.25/32.45 (step t1345 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1346 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t1345))
% 32.25/32.45 (step t1347 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1348 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t1347))
% 32.25/32.45 (step t1349 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1350 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t1349))
% 32.25/32.45 (step t1351 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1352 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t1351))
% 32.25/32.45 (step t1353 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1354 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t1353))
% 32.25/32.45 (step t1355 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1356 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t1355))
% 32.25/32.45 (step t1357 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1358 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e13))))) :rule cong :premises (t1357))
% 32.25/32.45 (step t1359 (cl (= (and (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e14)))) (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e13)))))) :rule cong :premises (t1160 t1162 t1164 t1166 t1168 t1170 t1172 t1174 t1176 t1178 t1180 t1182 t1184 t1186 t1188 t1190 t1192 t1194 t1196 t1198 t1200 t1202 t1204 t1206 t1208 t1210 t1212 t1214 t1216 t1218 t1220 t1222 t1224 t1226 t1228 t1230 t1232 t1234 t1236 t1238 t1240 t1242 t1244 t1246 t1248 t1250 t1252 t1254 t1256 t1258 t1260 t1262 t1264 t1266 t1268 t1270 t1272 t1274 t1276 t1278 t1280 t1282 t1284 t1286 t1288 t1290 t1292 t1294 t1296 t1298 t1300 t1302 t1304 t1306 t1308 t1310 t1312 t1314 t1316 t1318 t1320 t1322 t1324 t1326 t1328 t1330 t1332 t1334 t1336 t1338 t1340 t1342 t1344 t1346 t1348 t1350 t1352 t1354 t1356 t1358))
% 32.25/32.45 (step t1360 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e11))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t1158 t1359 a6))
% 32.25/32.45 (step t1361 (cl (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and :premises (t1360))
% 32.25/32.45 (step t1362 (cl (not (= (and (= (tptp.op1 tptp.unit1 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10) (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11) (= (tptp.op1 tptp.unit1 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12) (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13) (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14) (or (= tptp.unit1 tptp.e10) (= tptp.unit1 tptp.e11) (= tptp.unit1 tptp.e12) (= tptp.unit1 tptp.e13) (= tptp.unit1 tptp.e14))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (or (= tptp.e10 tptp.unit1) (= tptp.e11 tptp.unit1) (= tptp.e12 tptp.unit1) (= tptp.e13 tptp.unit1) (= tptp.e14 tptp.unit1))))) (not (and (= (tptp.op1 tptp.unit1 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10) (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11) (= (tptp.op1 tptp.unit1 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12) (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13) (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14) (or (= tptp.unit1 tptp.e10) (= tptp.unit1 tptp.e11) (= tptp.unit1 tptp.e12) (= tptp.unit1 tptp.e13) (= tptp.unit1 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (or (= tptp.e10 tptp.unit1) (= tptp.e11 tptp.unit1) (= tptp.e12 tptp.unit1) (= tptp.e13 tptp.unit1) (= tptp.e14 tptp.unit1)))) :rule equiv_pos2)
% 32.25/32.45 (step t1363 (cl (= (= (tptp.op1 tptp.unit1 tptp.e10) tptp.e10) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1364 (cl (= (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule all_simplify)
% 32.25/32.45 (step t1365 (cl (= (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1366 (cl (= (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule all_simplify)
% 32.25/32.45 (step t1367 (cl (= (= (tptp.op1 tptp.unit1 tptp.e12) tptp.e12) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1368 (cl (= (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule all_simplify)
% 32.25/32.45 (step t1369 (cl (= (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1370 (cl (= (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule all_simplify)
% 32.25/32.45 (step t1371 (cl (= (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1372 (cl (= (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule all_simplify)
% 32.25/32.45 (step t1373 (cl (= (= tptp.unit1 tptp.e10) (= tptp.e10 tptp.unit1))) :rule all_simplify)
% 32.25/32.45 (step t1374 (cl (= (= tptp.unit1 tptp.e11) (= tptp.e11 tptp.unit1))) :rule all_simplify)
% 32.25/32.45 (step t1375 (cl (= (= tptp.unit1 tptp.e12) (= tptp.e12 tptp.unit1))) :rule all_simplify)
% 32.25/32.45 (step t1376 (cl (= (= tptp.unit1 tptp.e13) (= tptp.e13 tptp.unit1))) :rule all_simplify)
% 32.25/32.45 (step t1377 (cl (= (= tptp.unit1 tptp.e14) (= tptp.e14 tptp.unit1))) :rule all_simplify)
% 32.25/32.45 (step t1378 (cl (= (or (= tptp.unit1 tptp.e10) (= tptp.unit1 tptp.e11) (= tptp.unit1 tptp.e12) (= tptp.unit1 tptp.e13) (= tptp.unit1 tptp.e14)) (or (= tptp.e10 tptp.unit1) (= tptp.e11 tptp.unit1) (= tptp.e12 tptp.unit1) (= tptp.e13 tptp.unit1) (= tptp.e14 tptp.unit1)))) :rule cong :premises (t1373 t1374 t1375 t1376 t1377))
% 32.25/32.45 (step t1379 (cl (= (and (= (tptp.op1 tptp.unit1 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10) (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11) (= (tptp.op1 tptp.unit1 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12) (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13) (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14) (or (= tptp.unit1 tptp.e10) (= tptp.unit1 tptp.e11) (= tptp.unit1 tptp.e12) (= tptp.unit1 tptp.e13) (= tptp.unit1 tptp.e14))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (or (= tptp.e10 tptp.unit1) (= tptp.e11 tptp.unit1) (= tptp.e12 tptp.unit1) (= tptp.e13 tptp.unit1) (= tptp.e14 tptp.unit1))))) :rule cong :premises (t1363 t1364 t1365 t1366 t1367 t1368 t1369 t1370 t1371 t1372 t1378))
% 32.25/32.45 (step t1380 (cl (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (or (= tptp.e10 tptp.unit1) (= tptp.e11 tptp.unit1) (= tptp.e12 tptp.unit1) (= tptp.e13 tptp.unit1) (= tptp.e14 tptp.unit1)))) :rule resolution :premises (t1362 t1379 a1))
% 32.25/32.45 (step t1381 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and :premises (t1380))
% 32.25/32.45 (step t1382 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and :premises (t1380))
% 32.25/32.45 (step t1383 (cl (not (= (and (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (and (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) (not (and (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (and (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_pos2)
% 32.25/32.45 (step t1384 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t931 t942 t953 t964 t975))
% 32.25/32.45 (step t1385 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t932 t943 t954 t965 t976))
% 32.25/32.45 (step t1386 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t933 t944 t955 t966 t977))
% 32.25/32.45 (step t1387 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))))) :rule cong :premises (t934 t945 t956 t967 t978))
% 32.25/32.45 (step t1388 (cl (= (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t935 t946 t957 t968 t979))
% 32.25/32.45 (step t1389 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t937 t948 t959 t970 t981))
% 32.25/32.45 (step t1390 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t986 t995 t1004 t1013 t1022))
% 32.25/32.45 (step t1391 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule cong :premises (t987 t996 t1005 t1014 t1023))
% 32.25/32.45 (step t1392 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))))) :rule cong :premises (t988 t997 t1006 t1015 t1024))
% 32.25/32.45 (step t1393 (cl (= (or (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t989 t998 t1007 t1016 t1025))
% 32.25/32.45 (step t1394 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t938 t949 t960 t971 t982))
% 32.25/32.45 (step t1395 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))))) :rule cong :premises (t991 t1000 t1009 t1018 t1027))
% 32.25/32.45 (step t1396 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))))) :rule cong :premises (t1031 t1038 t1045 t1052 t1059))
% 32.25/32.45 (step t1397 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13))))) :rule cong :premises (t1032 t1039 t1046 t1053 t1060))
% 32.25/32.45 (step t1398 (cl (= (or (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))))) :rule cong :premises (t1033 t1040 t1047 t1054 t1061))
% 32.25/32.45 (step t1399 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t939 t950 t961 t972 t983))
% 32.25/32.45 (step t1400 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t992 t1001 t1010 t1019 t1028))
% 32.25/32.45 (step t1401 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule cong :premises (t1035 t1042 t1049 t1056 t1063))
% 32.25/32.45 (step t1402 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))))) :rule cong :premises (t1066 t1071 t1076 t1081 t1086))
% 32.25/32.45 (step t1403 (cl (= (or (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule cong :premises (t1067 t1072 t1077 t1082 t1087))
% 32.25/32.45 (step t1404 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t940 t951 t962 t973 t984))
% 32.25/32.45 (step t1405 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t993 t1002 t1011 t1020 t1029))
% 32.25/32.45 (step t1406 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t1036 t1043 t1050 t1057 t1064))
% 32.25/32.45 (step t1407 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))))) :rule cong :premises (t1069 t1074 t1079 t1084 t1089))
% 32.25/32.45 (step t1408 (cl (= (or (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t1091 t1094 t1097 t1100 t1103))
% 32.25/32.45 (step t1409 (cl (= (and (or (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e11 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e12 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e13 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e14) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (or (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (and (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule cong :premises (t1384 t1385 t1386 t1387 t1388 t1389 t1390 t1391 t1392 t1393 t1394 t1395 t1396 t1397 t1398 t1399 t1400 t1401 t1402 t1403 t1404 t1405 t1406 t1407 t1408))
% 32.25/32.45 (step t1410 (cl (and (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))) (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t1383 t1409 a0))
% 32.25/32.45 (step t1411 (cl (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule and :premises (t1410))
% 32.25/32.45 (step t1412 (cl (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) :rule or :premises (t1411))
% 32.25/32.45 (step t1413 (cl (not (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))))) (not (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.45 (step t1414 (cl (= (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule refl)
% 32.25/32.45 (step t1415 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule refl)
% 32.25/32.45 (step t1416 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1417 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) :rule equiv1 :premises (t1416))
% 32.25/32.45 (step t1418 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))))) :rule all_simplify)
% 32.25/32.45 (step t1419 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) :rule refl)
% 32.25/32.45 (step t1420 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1421 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t1419 t1420))
% 32.25/32.45 (step t1422 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.45 (step t1423 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) true)) :rule trans :premises (t1421 t1422))
% 32.25/32.45 (step t1424 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) true)) :rule trans :premises (t1418 t1423))
% 32.25/32.45 (step t1425 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1417 t1424))
% 32.25/32.45 (step t1426 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule refl)
% 32.25/32.45 (step t1427 (cl (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))))) :rule cong :premises (t1414 t1415 t1425 t1426))
% 32.25/32.45 (step t1428 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) :rule and_neg)
% 32.25/32.45 (step t1429 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1430)
% 32.25/32.45 (assume t1430.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.25/32.45 (assume t1430.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.45 (assume t1430.a2 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))
% 32.25/32.45 (step t1430.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1430.t2)
% 32.25/32.45 (assume t1430.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))
% 32.25/32.45 (assume t1430.t2.a1 (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))
% 32.25/32.45 (step t1430.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) false) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1430.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) false)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule equiv1 :premises (t1430.t2.t1))
% 32.25/32.45 (step t1430.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule symm :premises (t1430.t2.a1))
% 32.25/32.45 (step t1430.t2.t4 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule symm :premises (t1430.t2.t3))
% 32.25/32.45 (step t1430.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) :rule refl)
% 32.25/32.45 (step t1430.t2.t6 (cl (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) :rule cong :premises (t1430.t2.t4 t1430.t2.t5))
% 32.25/32.45 (step t1430.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) false) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1430.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv2 :premises (t1430.t2.t7))
% 32.25/32.45 (step t1430.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) :rule not_not)
% 32.25/32.45 (step t1430.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) false) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t1430.t2.t8 t1430.t2.t9))
% 32.25/32.45 (step t1430.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) false)) :rule resolution :premises (t1430.t2.t10 t1430.t2.a0))
% 32.25/32.45 (step t1430.t2.t12 (cl (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) false)) :rule trans :premises (t1430.t2.t6 t1430.t2.t11))
% 32.25/32.45 (step t1430.t2.t13 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1430.t2.t2 t1430.t2.t12))
% 32.25/32.45 (step t1430.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t1430.t2.a0 t1430.t2.a1))
% 32.25/32.45 (step t1430.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.25/32.45 (step t1430.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1430.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1430.t2 t1430.t3 t1430.t4))
% 32.25/32.45 (step t1430.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t1430.t5))
% 32.25/32.45 (step t1430.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t1430.t6))
% 32.25/32.45 (step t1430.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1430.t1 t1430.t7))
% 32.25/32.45 (step t1430.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1430.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1430.t8 t1430.t9))
% 32.25/32.45 (step t1430.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t1430.t10))
% 32.25/32.45 (step t1430.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t1430.t11))
% 32.25/32.45 (step t1430.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule and_neg)
% 32.25/32.45 (step t1430.t14 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1430.t15)
% 32.25/32.45 (assume t1430.t15.a0 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.45 (assume t1430.t15.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.25/32.45 (step t1430.t15.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t1430.t15.a1))
% 32.25/32.45 (step t1430.t15.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t1430.t15.t1))
% 32.25/32.45 (step t1430.t15.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t1430.t15.a0))
% 32.25/32.45 (step t1430.t15.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t1430.t15.t3))
% 32.25/32.45 (step t1430.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t1430.t15.t4))
% 32.25/32.45 (step t1430.t15.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.45 (step t1430.t15.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t1430.t15.t5 t1430.t15.t6))
% 32.25/32.45 (step t1430.t15.t8 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t1430.t15.t2 t1430.t15.t7))
% 32.25/32.45 (step t1430.t15 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule subproof :discharge (t1430.t15.a0 t1430.t15.a1))
% 32.25/32.45 (step t1430.t16 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1430.t17 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1430.t18 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t1430.t15 t1430.t16 t1430.t17))
% 32.25/32.45 (step t1430.t19 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule reordering :premises (t1430.t18))
% 32.25/32.45 (step t1430.t20 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t1430.t19))
% 32.25/32.45 (step t1430.t21 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t1430.t14 t1430.t20))
% 32.25/32.45 (step t1430.t22 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg2)
% 32.25/32.45 (step t1430.t23 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1430.t21 t1430.t22))
% 32.25/32.45 (step t1430.t24 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t1430.t23))
% 32.25/32.45 (step t1430.t25 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule implies :premises (t1430.t24))
% 32.25/32.45 (step t1430.t26 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.25/32.45 (step t1430.t27 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t1430.t26 t1430.a1 t1430.a0))
% 32.25/32.45 (step t1430.t28 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t1430.t25 t1430.t27))
% 32.25/32.45 (step t1430.t29 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1430.t13 t1430.a2 t1430.t28))
% 32.25/32.45 (step t1430.t30 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1430.t12 t1430.t29))
% 32.25/32.45 (step t1430 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t1430.a0 t1430.a1 t1430.a2))
% 32.25/32.45 (step t1431 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1432 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1433 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.25/32.45 (step t1434 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))))) :rule resolution :premises (t1430 t1431 t1432 t1433))
% 32.25/32.45 (step t1435 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t1434))
% 32.25/32.45 (step t1436 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t1435))
% 32.25/32.45 (step t1437 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1429 t1436))
% 32.25/32.45 (step t1438 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1439 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1437 t1438))
% 32.25/32.45 (step t1440 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t1439))
% 32.25/32.45 (step t1441 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t1440))
% 32.25/32.45 (step t1442 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1428 t1441))
% 32.25/32.45 (step t1443 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule or_neg)
% 32.25/32.45 (step t1444 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.25/32.45 (step t1445 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))))) :rule or_neg)
% 32.25/32.45 (step t1446 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule or_neg)
% 32.25/32.45 (step t1447 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1442 t1443 t1444 t1445 t1446))
% 32.25/32.45 (step t1448 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t1447))
% 32.25/32.45 (step t1449 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1413 t1427 t1448))
% 32.25/32.45 (step t1450 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule or :premises (t1449))
% 32.25/32.45 (step t1451 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t1450))
% 32.25/32.45 (step t1452 (cl (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.45 (step t1453 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1451 t1452 t798 t799))
% 32.25/32.45 (step t1454 (cl (or (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule and :premises (t1107))
% 32.25/32.45 (step t1455 (cl (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) :rule or :premises (t1454))
% 32.25/32.45 (step t1456 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv_pos2)
% 32.25/32.45 (step t1457 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.45 (step t1458 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) :rule equiv1 :premises (t1457))
% 32.25/32.45 (step t1459 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))))) :rule all_simplify)
% 32.25/32.45 (step t1460 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) :rule refl)
% 32.25/32.45 (step t1461 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1462 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) :rule cong :premises (t1460 t1461))
% 32.25/32.45 (step t1463 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) true)) :rule all_simplify)
% 32.25/32.45 (step t1464 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) true)) :rule trans :premises (t1462 t1463))
% 32.25/32.45 (step t1465 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) true)) :rule trans :premises (t1459 t1464))
% 32.25/32.45 (step t1466 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1458 t1465))
% 32.25/32.45 (step t1467 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule refl)
% 32.25/32.45 (step t1468 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))))) :rule cong :premises (t1111 t1466 t1467))
% 32.25/32.45 (step t1469 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) :rule and_neg)
% 32.25/32.45 (step t1470 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1471)
% 32.25/32.45 (assume t1471.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1471.a1 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))
% 32.25/32.45 (step t1471.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1471.t2)
% 32.25/32.45 (assume t1471.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))
% 32.25/32.45 (assume t1471.t2.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (step t1471.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) false) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.45 (step t1471.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) false)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule equiv1 :premises (t1471.t2.t1))
% 32.25/32.45 (step t1471.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1471.t2.a1))
% 32.25/32.45 (step t1471.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1471.t2.t3))
% 32.25/32.45 (step t1471.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule refl)
% 32.25/32.45 (step t1471.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) :rule cong :premises (t1471.t2.t4 t1471.t2.t5))
% 32.25/32.45 (step t1471.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) false) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.45 (step t1471.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv2 :premises (t1471.t2.t7))
% 32.25/32.45 (step t1471.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule not_not)
% 32.25/32.45 (step t1471.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) false) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t1471.t2.t8 t1471.t2.t9))
% 32.25/32.45 (step t1471.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) false)) :rule resolution :premises (t1471.t2.t10 t1471.t2.a0))
% 32.25/32.45 (step t1471.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)) false)) :rule trans :premises (t1471.t2.t6 t1471.t2.t11))
% 32.25/32.45 (step t1471.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1471.t2.t2 t1471.t2.t12))
% 32.25/32.45 (step t1471.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule subproof :discharge (t1471.t2.a0 t1471.t2.a1))
% 32.25/32.45 (step t1471.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1471.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1471.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t1471.t2 t1471.t3 t1471.t4))
% 32.25/32.45 (step t1471.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule reordering :premises (t1471.t5))
% 32.25/32.45 (step t1471.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t1471.t6))
% 32.25/32.45 (step t1471.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1471.t1 t1471.t7))
% 32.25/32.45 (step t1471.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1471.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1471.t8 t1471.t9))
% 32.25/32.45 (step t1471.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule contraction :premises (t1471.t10))
% 32.25/32.45 (step t1471.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies :premises (t1471.t11))
% 32.25/32.45 (step t1471.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.45 (step t1471.t14 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t1471.t13 t1471.a1 t1471.a0))
% 32.25/32.45 (step t1471.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1471.t12 t1471.t14))
% 32.25/32.45 (step t1471 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule subproof :discharge (t1471.a0 t1471.a1))
% 32.25/32.45 (step t1472 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1473 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1474 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))))) :rule resolution :premises (t1471 t1472 t1473))
% 32.25/32.45 (step t1475 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule reordering :premises (t1474))
% 32.25/32.45 (step t1476 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t1475))
% 32.25/32.45 (step t1477 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1470 t1476))
% 32.25/32.45 (step t1478 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1479 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1477 t1478))
% 32.25/32.45 (step t1480 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule contraction :premises (t1479))
% 32.25/32.45 (step t1481 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14))))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies :premises (t1480))
% 32.25/32.45 (step t1482 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1469 t1481))
% 32.25/32.45 (step t1483 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.45 (step t1484 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))))) :rule or_neg)
% 32.25/32.45 (step t1485 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule or_neg)
% 32.25/32.45 (step t1486 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1482 t1483 t1484 t1485))
% 32.25/32.45 (step t1487 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule contraction :premises (t1486))
% 32.25/32.45 (step t1488 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1456 t1468 t1487))
% 32.25/32.45 (step t1489 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule or :premises (t1488))
% 32.25/32.45 (step t1490 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t1489))
% 32.25/32.45 (step t1491 (cl (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e14)))) :rule and :premises (t1360))
% 32.25/32.45 (step t1492 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1490 t1491 t767))
% 32.25/32.45 (step t1493 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) :rule resolution :premises (t748 t779 t802 t821 t838 t840 t863 t801 t778 t777 t776 t864 t461 t865 t888 t801 t778 t777 t776 t864 t461 t865 t909 t801 t778 t776 t461 t865 t929 t778 t777 t864 t461 t1109 t1157 t767 t1361 t1381 t1382 t1412 t1453 t1455 t1492))
% 32.25/32.45 (step t1494 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) :rule contraction :premises (t1493))
% 32.25/32.45 (step t1495 (cl (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule and :premises (t1107))
% 32.25/32.45 (step t1496 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) :rule or :premises (t1495))
% 32.25/32.45 (step t1497 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.45 (step t1498 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1499 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) :rule equiv1 :premises (t1498))
% 32.25/32.45 (step t1500 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))))) :rule all_simplify)
% 32.25/32.45 (step t1501 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) :rule refl)
% 32.25/32.45 (step t1502 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1503 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t1501 t1502))
% 32.25/32.45 (step t1504 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.45 (step t1505 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) true)) :rule trans :premises (t1503 t1504))
% 32.25/32.45 (step t1506 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) true)) :rule trans :premises (t1500 t1505))
% 32.25/32.45 (step t1507 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t1499 t1506))
% 32.25/32.45 (step t1508 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule refl)
% 32.25/32.45 (step t1509 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))))) :rule cong :premises (t1111 t1507 t1508))
% 32.25/32.45 (step t1510 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) :rule and_neg)
% 32.25/32.45 (step t1511 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1512)
% 32.25/32.45 (assume t1512.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1512.a1 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))
% 32.25/32.45 (step t1512.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1512.t2)
% 32.25/32.45 (assume t1512.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))
% 32.25/32.45 (assume t1512.t2.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (step t1512.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) false) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1512.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) false)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule equiv1 :premises (t1512.t2.t1))
% 32.25/32.45 (step t1512.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1512.t2.a1))
% 32.25/32.45 (step t1512.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1512.t2.t3))
% 32.25/32.45 (step t1512.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) :rule refl)
% 32.25/32.45 (step t1512.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) :rule cong :premises (t1512.t2.t4 t1512.t2.t5))
% 32.25/32.45 (step t1512.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) false) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1512.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv2 :premises (t1512.t2.t7))
% 32.25/32.45 (step t1512.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) :rule not_not)
% 32.25/32.45 (step t1512.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) false) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t1512.t2.t8 t1512.t2.t9))
% 32.25/32.45 (step t1512.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) false)) :rule resolution :premises (t1512.t2.t10 t1512.t2.a0))
% 32.25/32.45 (step t1512.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)) false)) :rule trans :premises (t1512.t2.t6 t1512.t2.t11))
% 32.25/32.45 (step t1512.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t1512.t2.t2 t1512.t2.t12))
% 32.25/32.45 (step t1512.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule subproof :discharge (t1512.t2.a0 t1512.t2.a1))
% 32.25/32.45 (step t1512.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) :rule and_pos)
% 32.25/32.45 (step t1512.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1512.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t1512.t2 t1512.t3 t1512.t4))
% 32.25/32.45 (step t1512.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule reordering :premises (t1512.t5))
% 32.25/32.45 (step t1512.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t1512.t6))
% 32.25/32.45 (step t1512.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t1512.t1 t1512.t7))
% 32.25/32.45 (step t1512.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1512.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t1512.t8 t1512.t9))
% 32.25/32.45 (step t1512.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t1512.t10))
% 32.25/32.45 (step t1512.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies :premises (t1512.t11))
% 32.25/32.45 (step t1512.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.45 (step t1512.t14 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t1512.t13 t1512.a1 t1512.a0))
% 32.25/32.45 (step t1512.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t1512.t12 t1512.t14))
% 32.25/32.45 (step t1512 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule subproof :discharge (t1512.a0 t1512.a1))
% 32.25/32.45 (step t1513 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1514 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) :rule and_pos)
% 32.25/32.45 (step t1515 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))))) :rule resolution :premises (t1512 t1513 t1514))
% 32.25/32.45 (step t1516 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule reordering :premises (t1515))
% 32.25/32.45 (step t1517 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t1516))
% 32.25/32.45 (step t1518 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t1511 t1517))
% 32.25/32.45 (step t1519 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1520 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t1518 t1519))
% 32.25/32.45 (step t1521 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t1520))
% 32.25/32.45 (step t1522 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies :premises (t1521))
% 32.25/32.45 (step t1523 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t1510 t1522))
% 32.25/32.45 (step t1524 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.45 (step t1525 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))))) :rule or_neg)
% 32.25/32.45 (step t1526 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule or_neg)
% 32.25/32.45 (step t1527 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t1523 t1524 t1525 t1526))
% 32.25/32.45 (step t1528 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t1527))
% 32.25/32.45 (step t1529 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t1497 t1509 t1528))
% 32.25/32.45 (step t1530 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule or :premises (t1529))
% 32.25/32.45 (step t1531 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t1530))
% 32.25/32.45 (step t1532 (cl (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.45 (step t1533 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t1531 t1532 t767))
% 32.25/32.45 (step t1534 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t1494 t1496 t1533))
% 32.25/32.45 (step t1535 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))) :rule contraction :premises (t1534))
% 32.25/32.45 (step t1536 (cl (not (and (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14))) (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14))) (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14))) (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14))) (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14)))))) :rule not_or :premises (t746))
% 32.25/32.45 (step t1537 (cl (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) (not (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14)))) (not (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14)))) (not (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14)))) (not (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14)))) (not (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14))))) :rule not_and :premises (t1536))
% 32.25/32.45 (step t1538 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule and_neg)
% 32.25/32.45 (step t1539 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1540)
% 32.25/32.45 (assume t1540.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.45 (assume t1540.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1540.a2 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (assume t1540.a3 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1540.a4 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (assume t1540.a5 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (step t1540.t1 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1540.t2)
% 32.25/32.45 (assume t1540.t2.a0 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (assume t1540.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (assume t1540.t2.a2 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1540.t2.a3 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (assume t1540.t2.a4 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.45 (assume t1540.t2.a5 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (step t1540.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1540.t2.a5))
% 32.25/32.45 (step t1540.t2.t2 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1540.t2.t1))
% 32.25/32.45 (step t1540.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.45 (step t1540.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule cong :premises (t1540.t2.t2 t1540.t2.t3))
% 32.25/32.45 (step t1540.t2.t5 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t1540.t2.a4))
% 32.25/32.45 (step t1540.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule trans :premises (t1540.t2.t4 t1540.t2.t5))
% 32.25/32.45 (step t1540.t2.t7 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.h5 tptp.e10))) :rule cong :premises (t1540.t2.t6))
% 32.25/32.45 (step t1540.t2.t8 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t1540.t2.a3))
% 32.25/32.45 (step t1540.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t1540.t2.a1))
% 32.25/32.45 (step t1540.t2.t10 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.45 (step t1540.t2.t11 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t1540.t2.t9 t1540.t2.t10))
% 32.25/32.45 (step t1540.t2.t12 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1540.t2.t9))
% 32.25/32.45 (step t1540.t2.t13 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1540.t2.a0))
% 32.25/32.45 (step t1540.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t1540.t2.t13))
% 32.25/32.45 (step t1540.t2.t15 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t1540.t2.t12 t1540.t2.t14))
% 32.25/32.45 (step t1540.t2.t16 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t1540.t2.a2))
% 32.25/32.45 (step t1540.t2.t17 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule symm :premises (t1540.t2.t16))
% 32.25/32.45 (step t1540.t2.t18 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule cong :premises (t1540.t2.t15 t1540.t2.t17))
% 32.25/32.45 (step t1540.t2.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule trans :premises (t1540.t2.t7 t1540.t2.t8 t1540.t2.t11 t1540.t2.t18))
% 32.25/32.45 (step t1540.t2 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t1540.t2.a0 t1540.t2.a1 t1540.t2.a2 t1540.t2.a3 t1540.t2.a4 t1540.t2.a5))
% 32.25/32.45 (step t1540.t3 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1540.t4 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1540.t5 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1540.t6 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1540.t7 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1540.t8 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1540.t9 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t1540.t2 t1540.t3 t1540.t4 t1540.t5 t1540.t6 t1540.t7 t1540.t8))
% 32.25/32.45 (step t1540.t10 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule reordering :premises (t1540.t9))
% 32.25/32.45 (step t1540.t11 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule contraction :premises (t1540.t10))
% 32.25/32.45 (step t1540.t12 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1540.t1 t1540.t11))
% 32.25/32.45 (step t1540.t13 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1540.t14 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))))) :rule resolution :premises (t1540.t12 t1540.t13))
% 32.25/32.45 (step t1540.t15 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))))) :rule contraction :premises (t1540.t14))
% 32.25/32.45 (step t1540.t16 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule implies :premises (t1540.t15))
% 32.25/32.45 (step t1540.t17 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.45 (step t1540.t18 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t1540.t17 t1540.a5 t1540.a2 t1540.a3 t1540.a4 t1540.a0 t1540.a1))
% 32.25/32.45 (step t1540.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1540.t16 t1540.t18))
% 32.25/32.45 (step t1540 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t1540.a0 t1540.a1 t1540.a2 t1540.a3 t1540.a4 t1540.a5))
% 32.25/32.45 (step t1541 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1542 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1543 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1544 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1545 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1546 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1547 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))))) :rule resolution :premises (t1540 t1541 t1542 t1543 t1544 t1545 t1546))
% 32.25/32.45 (step t1548 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule reordering :premises (t1547))
% 32.25/32.45 (step t1549 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule contraction :premises (t1548))
% 32.25/32.45 (step t1550 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1539 t1549))
% 32.25/32.45 (step t1551 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1552 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))))) :rule resolution :premises (t1550 t1551))
% 32.25/32.45 (step t1553 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))))) :rule contraction :premises (t1552))
% 32.25/32.45 (step t1554 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule implies :premises (t1553))
% 32.25/32.45 (step t1555 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1538 t1554))
% 32.25/32.45 (step t1556 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule reordering :premises (t1555))
% 32.25/32.45 (step t1557 (cl (not (= (and (= (tptp.h5 tptp.e14) tptp.e24) (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) (not (and (= (tptp.h5 tptp.e14) tptp.e24) (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule equiv_pos2)
% 32.25/32.45 (step t1558 (cl (= (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1559 (cl (= (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule all_simplify)
% 32.25/32.45 (step t1560 (cl (= (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule all_simplify)
% 32.25/32.45 (step t1561 (cl (= (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule all_simplify)
% 32.25/32.45 (step t1562 (cl (= (and (= (tptp.h5 tptp.e14) tptp.e24) (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule cong :premises (t741 t1558 t1559 t1560 t1561))
% 32.25/32.45 (step t1563 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule resolution :premises (t1557 t1562 a19))
% 32.25/32.45 (step t1564 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule and :premises (t1563))
% 32.25/32.45 (step t1565 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and :premises (t1563))
% 32.25/32.45 (step t1566 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and :premises (t1563))
% 32.25/32.45 (step t1567 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1556 t767 t461 t768 t1564 t1565 t1566))
% 32.25/32.45 (step t1568 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.25/32.45 (step t1569 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1570)
% 32.25/32.45 (assume t1570.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.25/32.45 (assume t1570.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.45 (assume t1570.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (assume t1570.a3 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1570.a4 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.25/32.45 (assume t1570.a5 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (step t1570.t1 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1570.t2)
% 32.25/32.45 (assume t1570.t2.a0 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (assume t1570.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (assume t1570.t2.a2 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1570.t2.a3 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.25/32.45 (assume t1570.t2.a4 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.25/32.45 (assume t1570.t2.a5 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.45 (step t1570.t2.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t1570.t2.a5))
% 32.25/32.45 (step t1570.t2.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t1570.t2.t1))
% 32.25/32.45 (step t1570.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.45 (step t1570.t2.t4 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule cong :premises (t1570.t2.t2 t1570.t2.t3))
% 32.25/32.45 (step t1570.t2.t5 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t1570.t2.a4))
% 32.25/32.45 (step t1570.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule trans :premises (t1570.t2.t4 t1570.t2.t5))
% 32.25/32.45 (step t1570.t2.t7 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.h5 tptp.e12))) :rule cong :premises (t1570.t2.t6))
% 32.25/32.45 (step t1570.t2.t8 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t1570.t2.a3))
% 32.25/32.45 (step t1570.t2.t9 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t1570.t2.a1))
% 32.25/32.45 (step t1570.t2.t10 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.45 (step t1570.t2.t11 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t1570.t2.t9 t1570.t2.t10))
% 32.25/32.45 (step t1570.t2.t12 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1570.t2.t9))
% 32.25/32.45 (step t1570.t2.t13 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1570.t2.a0))
% 32.25/32.45 (step t1570.t2.t14 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t1570.t2.t13))
% 32.25/32.45 (step t1570.t2.t15 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t1570.t2.t12 t1570.t2.t14))
% 32.25/32.45 (step t1570.t2.t16 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t1570.t2.a2))
% 32.25/32.45 (step t1570.t2.t17 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule symm :premises (t1570.t2.t16))
% 32.25/32.45 (step t1570.t2.t18 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule cong :premises (t1570.t2.t15 t1570.t2.t17))
% 32.25/32.45 (step t1570.t2.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule trans :premises (t1570.t2.t7 t1570.t2.t8 t1570.t2.t11 t1570.t2.t18))
% 32.25/32.45 (step t1570.t2 (cl (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t1570.t2.a0 t1570.t2.a1 t1570.t2.a2 t1570.t2.a3 t1570.t2.a4 t1570.t2.a5))
% 32.25/32.45 (step t1570.t3 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1570.t4 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1570.t5 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1570.t6 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.25/32.45 (step t1570.t7 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1570.t8 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1570.t9 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t1570.t2 t1570.t3 t1570.t4 t1570.t5 t1570.t6 t1570.t7 t1570.t8))
% 32.25/32.45 (step t1570.t10 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule reordering :premises (t1570.t9))
% 32.25/32.45 (step t1570.t11 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule contraction :premises (t1570.t10))
% 32.25/32.45 (step t1570.t12 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1570.t1 t1570.t11))
% 32.25/32.45 (step t1570.t13 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1570.t14 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))))) :rule resolution :premises (t1570.t12 t1570.t13))
% 32.25/32.45 (step t1570.t15 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))))) :rule contraction :premises (t1570.t14))
% 32.25/32.45 (step t1570.t16 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule implies :premises (t1570.t15))
% 32.25/32.45 (step t1570.t17 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.25/32.45 (step t1570.t18 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t1570.t17 t1570.a5 t1570.a2 t1570.a3 t1570.a4 t1570.a0 t1570.a1))
% 32.25/32.45 (step t1570.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1570.t16 t1570.t18))
% 32.25/32.45 (step t1570 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t1570.a0 t1570.a1 t1570.a2 t1570.a3 t1570.a4 t1570.a5))
% 32.25/32.45 (step t1571 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1572 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1573 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1574 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1575 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.25/32.45 (step t1576 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1577 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1570 t1571 t1572 t1573 t1574 t1575 t1576))
% 32.25/32.45 (step t1578 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule reordering :premises (t1577))
% 32.25/32.45 (step t1579 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule contraction :premises (t1578))
% 32.25/32.45 (step t1580 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1569 t1579))
% 32.25/32.45 (step t1581 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1582 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))))) :rule resolution :premises (t1580 t1581))
% 32.25/32.45 (step t1583 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))))) :rule contraction :premises (t1582))
% 32.25/32.45 (step t1584 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule implies :premises (t1583))
% 32.25/32.45 (step t1585 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1568 t1584))
% 32.25/32.45 (step t1586 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1585))
% 32.25/32.45 (step t1587 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and :premises (t1563))
% 32.25/32.45 (step t1588 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and :premises (t1563))
% 32.25/32.45 (step t1589 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1586 t798 t799 t864 t1564 t1587 t1588))
% 32.25/32.45 (step t1590 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.25/32.45 (step t1591 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1592)
% 32.25/32.45 (assume t1592.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1592.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.45 (assume t1592.a2 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (assume t1592.a3 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1592.a4 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (assume t1592.a5 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (step t1592.t1 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1592.t2)
% 32.25/32.45 (assume t1592.t2.a0 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1592.t2.a1 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (assume t1592.t2.a2 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (assume t1592.t2.a3 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (assume t1592.t2.a4 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.45 (assume t1592.t2.a5 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (step t1592.t2.t1 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.45 (step t1592.t2.t2 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1592.t2.a5))
% 32.25/32.45 (step t1592.t2.t3 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1592.t2.t2))
% 32.25/32.45 (step t1592.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule cong :premises (t1592.t2.t1 t1592.t2.t3))
% 32.25/32.45 (step t1592.t2.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t1592.t2.a4))
% 32.25/32.45 (step t1592.t2.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t1592.t2.t5))
% 32.25/32.45 (step t1592.t2.t7 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t1592.t2.t6))
% 32.25/32.45 (step t1592.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule trans :premises (t1592.t2.t4 t1592.t2.t7))
% 32.25/32.45 (step t1592.t2.t9 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.h5 tptp.e13))) :rule cong :premises (t1592.t2.t8))
% 32.25/32.45 (step t1592.t2.t10 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1592.t2.a3))
% 32.25/32.45 (step t1592.t2.t11 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t1592.t2.t10))
% 32.25/32.45 (step t1592.t2.t12 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1592.t2.t11))
% 32.25/32.45 (step t1592.t2.t13 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.45 (step t1592.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t1592.t2.a2))
% 32.25/32.45 (step t1592.t2.t15 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t1592.t2.t13 t1592.t2.t14))
% 32.25/32.45 (step t1592.t2.t16 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t1592.t2.a0))
% 32.25/32.45 (step t1592.t2.t17 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule symm :premises (t1592.t2.t16))
% 32.25/32.45 (step t1592.t2.t18 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1592.t2.t14))
% 32.25/32.45 (step t1592.t2.t19 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1592.t2.a1))
% 32.25/32.45 (step t1592.t2.t20 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t1592.t2.t19))
% 32.25/32.45 (step t1592.t2.t21 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t1592.t2.t18 t1592.t2.t20))
% 32.25/32.45 (step t1592.t2.t22 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule cong :premises (t1592.t2.t17 t1592.t2.t21))
% 32.25/32.45 (step t1592.t2.t23 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule trans :premises (t1592.t2.t9 t1592.t2.t12 t1592.t2.t15 t1592.t2.t22))
% 32.25/32.45 (step t1592.t2 (cl (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t1592.t2.a0 t1592.t2.a1 t1592.t2.a2 t1592.t2.a3 t1592.t2.a4 t1592.t2.a5))
% 32.25/32.45 (step t1592.t3 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1592.t4 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1592.t5 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1592.t6 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1592.t7 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1592.t8 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1592.t9 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t1592.t2 t1592.t3 t1592.t4 t1592.t5 t1592.t6 t1592.t7 t1592.t8))
% 32.25/32.45 (step t1592.t10 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule reordering :premises (t1592.t9))
% 32.25/32.45 (step t1592.t11 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule contraction :premises (t1592.t10))
% 32.25/32.45 (step t1592.t12 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule resolution :premises (t1592.t1 t1592.t11))
% 32.25/32.45 (step t1592.t13 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.25/32.45 (step t1592.t14 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))))) :rule resolution :premises (t1592.t12 t1592.t13))
% 32.25/32.45 (step t1592.t15 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))))) :rule contraction :premises (t1592.t14))
% 32.25/32.45 (step t1592.t16 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule implies :premises (t1592.t15))
% 32.25/32.45 (step t1592.t17 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.45 (step t1592.t18 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t1592.t17 t1592.a3 t1592.a4 t1592.a2 t1592.a5 t1592.a1 t1592.a0))
% 32.25/32.45 (step t1592.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule resolution :premises (t1592.t16 t1592.t18))
% 32.25/32.45 (step t1592 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t1592.a0 t1592.a1 t1592.a2 t1592.a3 t1592.a4 t1592.a5))
% 32.25/32.45 (step t1593 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1594 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1595 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1596 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1597 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1598 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1599 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1592 t1593 t1594 t1595 t1596 t1597 t1598))
% 32.25/32.45 (step t1600 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule reordering :premises (t1599))
% 32.25/32.45 (step t1601 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule contraction :premises (t1600))
% 32.25/32.45 (step t1602 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule resolution :premises (t1591 t1601))
% 32.25/32.45 (step t1603 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.25/32.45 (step t1604 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))))) :rule resolution :premises (t1602 t1603))
% 32.25/32.45 (step t1605 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))))) :rule contraction :premises (t1604))
% 32.25/32.45 (step t1606 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule implies :premises (t1605))
% 32.25/32.45 (step t1607 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule resolution :premises (t1590 t1606))
% 32.25/32.45 (step t1608 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1607))
% 32.25/32.45 (step t1609 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e11)))) :rule resolution :premises (t1608 t767 t461 t799 t1564 t1566 t1588))
% 32.25/32.45 (step t1610 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule and_neg)
% 32.25/32.45 (step t1611 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1612)
% 32.25/32.45 (assume t1612.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1612.a1 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1612.a2 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (step t1612.t1 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1612.t2)
% 32.25/32.45 (assume t1612.t2.a0 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1612.t2.a1 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (assume t1612.t2.a2 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (step t1612.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1612.t2.a2))
% 32.25/32.45 (step t1612.t2.t2 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1612.t2.t1))
% 32.25/32.45 (step t1612.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1612.t2.t2))
% 32.25/32.45 (step t1612.t2.t4 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.h5 tptp.e11))) :rule cong :premises (t1612.t2.t3))
% 32.25/32.45 (step t1612.t2.t5 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1612.t2.a1))
% 32.25/32.45 (step t1612.t2.t6 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t1612.t2.t5))
% 32.25/32.45 (step t1612.t2.t7 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1612.t2.t6))
% 32.25/32.45 (step t1612.t2.t8 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t1612.t2.a0))
% 32.25/32.45 (step t1612.t2.t9 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule symm :premises (t1612.t2.t8))
% 32.25/32.45 (step t1612.t2.t10 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule cong :premises (t1612.t2.t9 t1612.t2.t9))
% 32.25/32.45 (step t1612.t2.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule trans :premises (t1612.t2.t4 t1612.t2.t7 t1612.t2.t10))
% 32.25/32.45 (step t1612.t2 (cl (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t1612.t2.a0 t1612.t2.a1 t1612.t2.a2))
% 32.25/32.45 (step t1612.t3 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1612.t4 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1612.t5 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1612.t6 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t1612.t2 t1612.t3 t1612.t4 t1612.t5))
% 32.25/32.45 (step t1612.t7 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule reordering :premises (t1612.t6))
% 32.25/32.45 (step t1612.t8 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule contraction :premises (t1612.t7))
% 32.25/32.45 (step t1612.t9 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1612.t1 t1612.t8))
% 32.25/32.45 (step t1612.t10 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1612.t11 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))))) :rule resolution :premises (t1612.t9 t1612.t10))
% 32.25/32.45 (step t1612.t12 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))))) :rule contraction :premises (t1612.t11))
% 32.25/32.45 (step t1612.t13 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule implies :premises (t1612.t12))
% 32.25/32.45 (step t1612.t14 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.45 (step t1612.t15 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t1612.t14 t1612.a1 t1612.a2 t1612.a0))
% 32.25/32.45 (step t1612.t16 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1612.t13 t1612.t15))
% 32.25/32.45 (step t1612 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t1612.a0 t1612.a1 t1612.a2))
% 32.25/32.45 (step t1613 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1614 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1615 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1616 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))))) :rule resolution :premises (t1612 t1613 t1614 t1615))
% 32.25/32.45 (step t1617 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule reordering :premises (t1616))
% 32.25/32.45 (step t1618 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule contraction :premises (t1617))
% 32.25/32.45 (step t1619 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1611 t1618))
% 32.25/32.45 (step t1620 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1621 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))))) :rule resolution :premises (t1619 t1620))
% 32.25/32.45 (step t1622 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))))) :rule contraction :premises (t1621))
% 32.25/32.45 (step t1623 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule implies :premises (t1622))
% 32.25/32.45 (step t1624 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1610 t1623))
% 32.25/32.45 (step t1625 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule reordering :premises (t1624))
% 32.25/32.45 (step t1626 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e14)))) :rule resolution :premises (t1625 t767 t1564 t1566))
% 32.25/32.45 (step t1627 (cl (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14))) (not (= tptp.e20 (tptp.h5 tptp.e10)))) :rule or_neg)
% 32.25/32.45 (step t1628 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) :rule and_neg)
% 32.25/32.45 (step t1629 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1630)
% 32.25/32.45 (assume t1630.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.45 (assume t1630.a1 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (step t1630.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h5 tptp.e10))) (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1630.t2)
% 32.25/32.45 (assume t1630.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (assume t1630.t2.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.45 (step t1630.t2.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t1630.t2.a1))
% 32.25/32.45 (step t1630.t2.t2 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t1630.t2.t1))
% 32.25/32.45 (step t1630.t2.t3 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t1630.t2.a0))
% 32.25/32.45 (step t1630.t2.t4 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t1630.t2.t3))
% 32.25/32.45 (step t1630.t2.t5 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t1630.t2.t2 t1630.t2.t4))
% 32.25/32.45 (step t1630.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule subproof :discharge (t1630.t2.a0 t1630.t2.a1))
% 32.25/32.45 (step t1630.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1630.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1630.t5 (cl (= tptp.e20 (tptp.h5 tptp.e10)) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule resolution :premises (t1630.t2 t1630.t3 t1630.t4))
% 32.25/32.45 (step t1630.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule reordering :premises (t1630.t5))
% 32.25/32.45 (step t1630.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule contraction :premises (t1630.t6))
% 32.25/32.45 (step t1630.t8 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule resolution :premises (t1630.t1 t1630.t7))
% 32.25/32.45 (step t1630.t9 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.h5 tptp.e10)))) :rule implies_neg2)
% 32.25/32.45 (step t1630.t10 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h5 tptp.e10))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h5 tptp.e10)))) :rule resolution :premises (t1630.t8 t1630.t9))
% 32.25/32.45 (step t1630.t11 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h5 tptp.e10)))) :rule contraction :premises (t1630.t10))
% 32.25/32.45 (step t1630.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule implies :premises (t1630.t11))
% 32.25/32.45 (step t1630.t13 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule and_neg)
% 32.25/32.45 (step t1630.t14 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule resolution :premises (t1630.t13 t1630.a1 t1630.a0))
% 32.25/32.45 (step t1630.t15 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule resolution :premises (t1630.t12 t1630.t14))
% 32.25/32.45 (step t1630 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule subproof :discharge (t1630.a0 t1630.a1))
% 32.25/32.45 (step t1631 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1632 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1633 (cl (= tptp.e20 (tptp.h5 tptp.e10)) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))))) :rule resolution :premises (t1630 t1631 t1632))
% 32.25/32.45 (step t1634 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule reordering :premises (t1633))
% 32.25/32.45 (step t1635 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule contraction :premises (t1634))
% 32.25/32.45 (step t1636 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule resolution :premises (t1629 t1635))
% 32.25/32.45 (step t1637 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.h5 tptp.e10)))) :rule implies_neg2)
% 32.25/32.45 (step t1638 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10)))) :rule resolution :premises (t1636 t1637))
% 32.25/32.45 (step t1639 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10)))) :rule contraction :premises (t1638))
% 32.25/32.45 (step t1640 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule implies :premises (t1639))
% 32.25/32.45 (step t1641 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= tptp.e20 (tptp.h5 tptp.e10))) :rule resolution :premises (t1628 t1640))
% 32.25/32.45 (step t1642 (cl (= tptp.e20 (tptp.h5 tptp.e10)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) :rule reordering :premises (t1641))
% 32.25/32.45 (step t1643 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule resolution :premises (t1642 t865 t1565))
% 32.25/32.45 (step t1644 (cl (or (= tptp.e20 (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.h5 tptp.e11)) (= tptp.e20 (tptp.h5 tptp.e12)) (= tptp.e20 (tptp.h5 tptp.e13)) (= tptp.e20 (tptp.h5 tptp.e14)))) :rule resolution :premises (t1627 t1643))
% 32.25/32.45 (step t1645 (cl (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14))) (not (= tptp.e21 (tptp.h5 tptp.e11)))) :rule or_neg)
% 32.25/32.45 (step t1646 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule and_neg)
% 32.25/32.45 (step t1647 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1648)
% 32.25/32.45 (assume t1648.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (assume t1648.a1 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (step t1648.t1 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h5 tptp.e11))) (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1648.t2)
% 32.25/32.45 (assume t1648.t2.a0 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (assume t1648.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (step t1648.t2.t1 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t1648.t2.a1))
% 32.25/32.45 (step t1648.t2.t2 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1648.t2.t1))
% 32.25/32.45 (step t1648.t2.t3 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1648.t2.a0))
% 32.25/32.45 (step t1648.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t1648.t2.t3))
% 32.25/32.45 (step t1648.t2.t5 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t1648.t2.t2 t1648.t2.t4))
% 32.25/32.45 (step t1648.t2 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule subproof :discharge (t1648.t2.a0 t1648.t2.a1))
% 32.25/32.45 (step t1648.t3 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1648.t4 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1648.t5 (cl (= tptp.e21 (tptp.h5 tptp.e11)) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t1648.t2 t1648.t3 t1648.t4))
% 32.25/32.45 (step t1648.t6 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule reordering :premises (t1648.t5))
% 32.25/32.45 (step t1648.t7 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule contraction :premises (t1648.t6))
% 32.25/32.45 (step t1648.t8 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule resolution :premises (t1648.t1 t1648.t7))
% 32.25/32.45 (step t1648.t9 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.h5 tptp.e11)))) :rule implies_neg2)
% 32.25/32.45 (step t1648.t10 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h5 tptp.e11))) (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h5 tptp.e11)))) :rule resolution :premises (t1648.t8 t1648.t9))
% 32.25/32.45 (step t1648.t11 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h5 tptp.e11)))) :rule contraction :premises (t1648.t10))
% 32.25/32.45 (step t1648.t12 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule implies :premises (t1648.t11))
% 32.25/32.45 (step t1648.t13 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_neg)
% 32.25/32.45 (step t1648.t14 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t1648.t13 t1648.a1 t1648.a0))
% 32.25/32.45 (step t1648.t15 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule resolution :premises (t1648.t12 t1648.t14))
% 32.25/32.45 (step t1648 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule subproof :discharge (t1648.a0 t1648.a1))
% 32.25/32.45 (step t1649 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1650 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1651 (cl (= tptp.e21 (tptp.h5 tptp.e11)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))))) :rule resolution :premises (t1648 t1649 t1650))
% 32.25/32.45 (step t1652 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule reordering :premises (t1651))
% 32.25/32.45 (step t1653 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule contraction :premises (t1652))
% 32.25/32.45 (step t1654 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule resolution :premises (t1647 t1653))
% 32.25/32.45 (step t1655 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.h5 tptp.e11)))) :rule implies_neg2)
% 32.25/32.45 (step t1656 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11)))) :rule resolution :premises (t1654 t1655))
% 32.25/32.45 (step t1657 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11)))) :rule contraction :premises (t1656))
% 32.25/32.45 (step t1658 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule implies :premises (t1657))
% 32.25/32.45 (step t1659 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= tptp.e21 (tptp.h5 tptp.e11))) :rule resolution :premises (t1646 t1658))
% 32.25/32.45 (step t1660 (cl (= tptp.e21 (tptp.h5 tptp.e11)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule reordering :premises (t1659))
% 32.25/32.45 (step t1661 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule resolution :premises (t1660 t461 t1566))
% 32.25/32.45 (step t1662 (cl (or (= tptp.e21 (tptp.h5 tptp.e10)) (= tptp.e21 (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.h5 tptp.e12)) (= tptp.e21 (tptp.h5 tptp.e13)) (= tptp.e21 (tptp.h5 tptp.e14)))) :rule resolution :premises (t1645 t1661))
% 32.25/32.45 (step t1663 (cl (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14))) (not (= tptp.e22 (tptp.h5 tptp.e12)))) :rule or_neg)
% 32.25/32.45 (step t1664 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.25/32.45 (step t1665 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1666)
% 32.25/32.45 (assume t1666.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.25/32.45 (assume t1666.a1 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.25/32.45 (step t1666.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.h5 tptp.e12))) (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1666.t2)
% 32.25/32.45 (assume t1666.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.25/32.45 (assume t1666.t2.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.25/32.45 (step t1666.t2.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t1666.t2.a1))
% 32.25/32.45 (step t1666.t2.t2 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t1666.t2.t1))
% 32.25/32.45 (step t1666.t2.t3 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t1666.t2.a0))
% 32.25/32.45 (step t1666.t2.t4 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t1666.t2.t3))
% 32.25/32.45 (step t1666.t2.t5 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t1666.t2.t2 t1666.t2.t4))
% 32.25/32.45 (step t1666.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule subproof :discharge (t1666.t2.a0 t1666.t2.a1))
% 32.25/32.45 (step t1666.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.25/32.45 (step t1666.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1666.t5 (cl (= tptp.e22 (tptp.h5 tptp.e12)) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule resolution :premises (t1666.t2 t1666.t3 t1666.t4))
% 32.25/32.45 (step t1666.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule reordering :premises (t1666.t5))
% 32.25/32.45 (step t1666.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule contraction :premises (t1666.t6))
% 32.25/32.45 (step t1666.t8 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule resolution :premises (t1666.t1 t1666.t7))
% 32.25/32.45 (step t1666.t9 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.h5 tptp.e12)))) :rule implies_neg2)
% 32.25/32.45 (step t1666.t10 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.h5 tptp.e12))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.h5 tptp.e12)))) :rule resolution :premises (t1666.t8 t1666.t9))
% 32.25/32.45 (step t1666.t11 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.h5 tptp.e12)))) :rule contraction :premises (t1666.t10))
% 32.25/32.45 (step t1666.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule implies :premises (t1666.t11))
% 32.25/32.45 (step t1666.t13 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule and_neg)
% 32.25/32.45 (step t1666.t14 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule resolution :premises (t1666.t13 t1666.a1 t1666.a0))
% 32.25/32.45 (step t1666.t15 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule resolution :premises (t1666.t12 t1666.t14))
% 32.25/32.45 (step t1666 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule subproof :discharge (t1666.a0 t1666.a1))
% 32.25/32.45 (step t1667 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1668 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.25/32.45 (step t1669 (cl (= tptp.e22 (tptp.h5 tptp.e12)) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t1666 t1667 t1668))
% 32.25/32.45 (step t1670 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule reordering :premises (t1669))
% 32.25/32.45 (step t1671 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule contraction :premises (t1670))
% 32.25/32.45 (step t1672 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule resolution :premises (t1665 t1671))
% 32.25/32.45 (step t1673 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.h5 tptp.e12)))) :rule implies_neg2)
% 32.25/32.45 (step t1674 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12)))) :rule resolution :premises (t1672 t1673))
% 32.25/32.45 (step t1675 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12)))) :rule contraction :premises (t1674))
% 32.25/32.45 (step t1676 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule implies :premises (t1675))
% 32.25/32.45 (step t1677 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= tptp.e22 (tptp.h5 tptp.e12))) :rule resolution :premises (t1664 t1676))
% 32.25/32.45 (step t1678 (cl (= tptp.e22 (tptp.h5 tptp.e12)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t1677))
% 32.25/32.45 (step t1679 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and :premises (a14))
% 32.25/32.45 (step t1680 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule resolution :premises (t1678 t1679 t1587))
% 32.25/32.45 (step t1681 (cl (or (= tptp.e22 (tptp.h5 tptp.e10)) (= tptp.e22 (tptp.h5 tptp.e11)) (= tptp.e22 (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.h5 tptp.e13)) (= tptp.e22 (tptp.h5 tptp.e14)))) :rule resolution :premises (t1663 t1680))
% 32.25/32.45 (step t1682 (cl (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14))) (not (= tptp.e23 (tptp.h5 tptp.e13)))) :rule or_neg)
% 32.25/32.45 (step t1683 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.25/32.45 (step t1684 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1685)
% 32.25/32.45 (assume t1685.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (assume t1685.a1 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (step t1685.t1 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.h5 tptp.e13))) (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1685.t2)
% 32.25/32.45 (assume t1685.t2.a0 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (assume t1685.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (step t1685.t2.t1 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t1685.t2.a1))
% 32.25/32.45 (step t1685.t2.t2 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1685.t2.t1))
% 32.25/32.45 (step t1685.t2.t3 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1685.t2.a0))
% 32.25/32.45 (step t1685.t2.t4 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t1685.t2.t3))
% 32.25/32.45 (step t1685.t2.t5 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t1685.t2.t2 t1685.t2.t4))
% 32.25/32.45 (step t1685.t2 (cl (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule subproof :discharge (t1685.t2.a0 t1685.t2.a1))
% 32.25/32.45 (step t1685.t3 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1685.t4 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1685.t5 (cl (= tptp.e23 (tptp.h5 tptp.e13)) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule resolution :premises (t1685.t2 t1685.t3 t1685.t4))
% 32.25/32.45 (step t1685.t6 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule reordering :premises (t1685.t5))
% 32.25/32.45 (step t1685.t7 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule contraction :premises (t1685.t6))
% 32.25/32.45 (step t1685.t8 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule resolution :premises (t1685.t1 t1685.t7))
% 32.25/32.45 (step t1685.t9 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.h5 tptp.e13)))) :rule implies_neg2)
% 32.25/32.45 (step t1685.t10 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.h5 tptp.e13))) (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.h5 tptp.e13)))) :rule resolution :premises (t1685.t8 t1685.t9))
% 32.25/32.45 (step t1685.t11 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.h5 tptp.e13)))) :rule contraction :premises (t1685.t10))
% 32.25/32.45 (step t1685.t12 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule implies :premises (t1685.t11))
% 32.25/32.45 (step t1685.t13 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule and_neg)
% 32.25/32.45 (step t1685.t14 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t1685.t13 t1685.a1 t1685.a0))
% 32.25/32.45 (step t1685.t15 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule resolution :premises (t1685.t12 t1685.t14))
% 32.25/32.45 (step t1685 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule subproof :discharge (t1685.a0 t1685.a1))
% 32.25/32.45 (step t1686 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1687 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1688 (cl (= tptp.e23 (tptp.h5 tptp.e13)) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1685 t1686 t1687))
% 32.25/32.45 (step t1689 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule reordering :premises (t1688))
% 32.25/32.45 (step t1690 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule contraction :premises (t1689))
% 32.25/32.45 (step t1691 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule resolution :premises (t1684 t1690))
% 32.25/32.45 (step t1692 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.h5 tptp.e13)))) :rule implies_neg2)
% 32.25/32.45 (step t1693 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13)))) :rule resolution :premises (t1691 t1692))
% 32.25/32.45 (step t1694 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13)))) :rule contraction :premises (t1693))
% 32.25/32.45 (step t1695 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule implies :premises (t1694))
% 32.25/32.45 (step t1696 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= tptp.e23 (tptp.h5 tptp.e13))) :rule resolution :premises (t1683 t1695))
% 32.25/32.45 (step t1697 (cl (= tptp.e23 (tptp.h5 tptp.e13)) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1696))
% 32.25/32.45 (step t1698 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule resolution :premises (t1697 t864 t1588))
% 32.25/32.45 (step t1699 (cl (or (= tptp.e23 (tptp.h5 tptp.e10)) (= tptp.e23 (tptp.h5 tptp.e11)) (= tptp.e23 (tptp.h5 tptp.e12)) (= tptp.e23 (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.h5 tptp.e14)))) :rule resolution :premises (t1682 t1698))
% 32.25/32.45 (step t1700 (cl (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e24 (tptp.h5 tptp.e14)))) :rule or_neg)
% 32.25/32.45 (step t1701 (cl (or (= tptp.e24 (tptp.h5 tptp.e10)) (= tptp.e24 (tptp.h5 tptp.e11)) (= tptp.e24 (tptp.h5 tptp.e12)) (= tptp.e24 (tptp.h5 tptp.e13)) (= tptp.e24 (tptp.h5 tptp.e14)))) :rule resolution :premises (t1700 t1564))
% 32.25/32.45 (step t1702 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.25/32.45 (step t1703 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1704)
% 32.25/32.45 (assume t1704.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.45 (assume t1704.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (assume t1704.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (assume t1704.a3 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))
% 32.25/32.45 (assume t1704.a4 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)))
% 32.25/32.45 (assume t1704.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (assume t1704.a6 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (assume t1704.a7 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (step t1704.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1704.t2)
% 32.25/32.45 (assume t1704.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (assume t1704.t2.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.45 (assume t1704.t2.a2 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (assume t1704.t2.a3 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (assume t1704.t2.a4 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)))
% 32.25/32.45 (assume t1704.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (assume t1704.t2.a6 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (assume t1704.t2.a7 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))
% 32.25/32.45 (step t1704.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11)) :rule symm :premises (t1704.t2.a7))
% 32.25/32.45 (step t1704.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.h5 tptp.e11))) :rule cong :premises (t1704.t2.t1))
% 32.25/32.45 (step t1704.t2.t3 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1704.t2.a6))
% 32.25/32.45 (step t1704.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t1704.t2.a5))
% 32.25/32.45 (step t1704.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21)) :rule symm :premises (t1704.t2.a4))
% 32.25/32.45 (step t1704.t2.t6 (cl (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t1704.t2.t5))
% 32.25/32.45 (step t1704.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t1704.t2.a1))
% 32.25/32.45 (step t1704.t2.t8 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t1704.t2.t7))
% 32.25/32.45 (step t1704.t2.t9 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t1704.t2.a0))
% 32.25/32.45 (step t1704.t2.t10 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t1704.t2.t9))
% 32.25/32.45 (step t1704.t2.t11 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t1704.t2.t8 t1704.t2.t10))
% 32.25/32.45 (step t1704.t2.t12 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t1704.t2.a3))
% 32.25/32.45 (step t1704.t2.t13 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1704.t2.t12))
% 32.25/32.45 (step t1704.t2.t14 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1704.t2.a2))
% 32.25/32.45 (step t1704.t2.t15 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t1704.t2.t14))
% 32.25/32.45 (step t1704.t2.t16 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t1704.t2.t13 t1704.t2.t15))
% 32.25/32.45 (step t1704.t2.t17 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule cong :premises (t1704.t2.t11 t1704.t2.t16))
% 32.25/32.45 (step t1704.t2.t18 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule trans :premises (t1704.t2.t2 t1704.t2.t3 t1704.t2.t4 t1704.t2.t6 t1704.t2.t17))
% 32.25/32.45 (step t1704.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t1704.t2.a0 t1704.t2.a1 t1704.t2.a2 t1704.t2.a3 t1704.t2.a4 t1704.t2.a5 t1704.t2.a6 t1704.t2.a7))
% 32.25/32.45 (step t1704.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1704.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1704.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1704.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1704.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.25/32.45 (step t1704.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1704.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1704.t10 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1704.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))))) :rule resolution :premises (t1704.t2 t1704.t3 t1704.t4 t1704.t5 t1704.t6 t1704.t7 t1704.t8 t1704.t9 t1704.t10))
% 32.25/32.45 (step t1704.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1704.t11))
% 32.25/32.45 (step t1704.t13 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule contraction :premises (t1704.t12))
% 32.25/32.45 (step t1704.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule resolution :premises (t1704.t1 t1704.t13))
% 32.25/32.45 (step t1704.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.25/32.45 (step t1704.t16 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1704.t14 t1704.t15))
% 32.25/32.45 (step t1704.t17 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule contraction :premises (t1704.t16))
% 32.25/32.45 (step t1704.t18 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule implies :premises (t1704.t17))
% 32.25/32.45 (step t1704.t19 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) :rule and_neg)
% 32.25/32.45 (step t1704.t20 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) :rule resolution :premises (t1704.t19 t1704.a5 t1704.a0 t1704.a7 t1704.a2 t1704.a4 t1704.a1 t1704.a6 t1704.a3))
% 32.25/32.45 (step t1704.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule resolution :premises (t1704.t18 t1704.t20))
% 32.25/32.45 (step t1704 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t1704.a0 t1704.a1 t1704.a2 t1704.a3 t1704.a4 t1704.a5 t1704.a6 t1704.a7))
% 32.25/32.45 (step t1705 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1706 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1707 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1708 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1709 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.25/32.45 (step t1710 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1711 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1712 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1713 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1704 t1705 t1706 t1707 t1708 t1709 t1710 t1711 t1712))
% 32.25/32.45 (step t1714 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1713))
% 32.25/32.45 (step t1715 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule contraction :premises (t1714))
% 32.25/32.45 (step t1716 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule resolution :premises (t1703 t1715))
% 32.25/32.45 (step t1717 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.25/32.45 (step t1718 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1716 t1717))
% 32.25/32.45 (step t1719 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule contraction :premises (t1718))
% 32.25/32.45 (step t1720 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule implies :premises (t1719))
% 32.25/32.45 (step t1721 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule resolution :premises (t1702 t1720))
% 32.25/32.45 (step t1722 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1721))
% 32.25/32.45 (step t1723 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) :rule and_neg)
% 32.25/32.45 (step t1724 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1725)
% 32.25/32.45 (assume t1725.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.45 (assume t1725.a1 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.45 (assume t1725.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.25/32.45 (assume t1725.a3 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1725.a4 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (step t1725.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1725.t2)
% 32.25/32.45 (assume t1725.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (assume t1725.t2.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.45 (assume t1725.t2.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.25/32.45 (assume t1725.t2.a3 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1725.t2.a4 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.45 (step t1725.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14)) :rule symm :premises (t1725.t2.a4))
% 32.25/32.45 (step t1725.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.h5 tptp.e14))) :rule cong :premises (t1725.t2.t1))
% 32.25/32.45 (step t1725.t2.t3 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t1725.t2.a3))
% 32.25/32.45 (step t1725.t2.t4 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t1725.t2.a2))
% 32.25/32.45 (step t1725.t2.t5 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t1725.t2.t4))
% 32.25/32.45 (step t1725.t2.t6 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t1725.t2.a1))
% 32.25/32.45 (step t1725.t2.t7 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t1725.t2.t6))
% 32.25/32.45 (step t1725.t2.t8 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t1725.t2.a0))
% 32.25/32.45 (step t1725.t2.t9 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t1725.t2.t8))
% 32.25/32.45 (step t1725.t2.t10 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t1725.t2.t7 t1725.t2.t9))
% 32.25/32.45 (step t1725.t2.t11 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule cong :premises (t1725.t2.t10 t1725.t2.t10))
% 32.25/32.45 (step t1725.t2.t12 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule trans :premises (t1725.t2.t2 t1725.t2.t3 t1725.t2.t5 t1725.t2.t11))
% 32.25/32.45 (step t1725.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t1725.t2.a0 t1725.t2.a1 t1725.t2.a2 t1725.t2.a3 t1725.t2.a4))
% 32.25/32.45 (step t1725.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1725.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1725.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.25/32.45 (step t1725.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1725.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1725.t8 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1725.t2 t1725.t3 t1725.t4 t1725.t5 t1725.t6 t1725.t7))
% 32.25/32.45 (step t1725.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule reordering :premises (t1725.t8))
% 32.25/32.45 (step t1725.t10 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule contraction :premises (t1725.t9))
% 32.25/32.45 (step t1725.t11 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule resolution :premises (t1725.t1 t1725.t10))
% 32.25/32.45 (step t1725.t12 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1725.t13 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule resolution :premises (t1725.t11 t1725.t12))
% 32.25/32.45 (step t1725.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule contraction :premises (t1725.t13))
% 32.25/32.45 (step t1725.t15 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule implies :premises (t1725.t14))
% 32.25/32.45 (step t1725.t16 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule and_neg)
% 32.25/32.45 (step t1725.t17 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1725.t16 t1725.a4 t1725.a0 t1725.a2 t1725.a3 t1725.a1))
% 32.25/32.45 (step t1725.t18 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule resolution :premises (t1725.t15 t1725.t17))
% 32.25/32.45 (step t1725 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t1725.a0 t1725.a1 t1725.a2 t1725.a3 t1725.a4))
% 32.25/32.45 (step t1726 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1727 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1728 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.25/32.45 (step t1729 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1730 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1731 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))))) :rule resolution :premises (t1725 t1726 t1727 t1728 t1729 t1730))
% 32.25/32.45 (step t1732 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule reordering :premises (t1731))
% 32.25/32.45 (step t1733 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule contraction :premises (t1732))
% 32.25/32.45 (step t1734 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule resolution :premises (t1724 t1733))
% 32.25/32.45 (step t1735 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1736 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule resolution :premises (t1734 t1735))
% 32.25/32.45 (step t1737 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule contraction :premises (t1736))
% 32.25/32.45 (step t1738 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule implies :premises (t1737))
% 32.25/32.45 (step t1739 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule resolution :premises (t1723 t1738))
% 32.25/32.45 (step t1740 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))) :rule reordering :premises (t1739))
% 32.25/32.45 (step t1741 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.25/32.45 (step t1742 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1743)
% 32.25/32.45 (assume t1743.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (assume t1743.a1 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))
% 32.25/32.45 (assume t1743.a2 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)))
% 32.25/32.45 (assume t1743.a3 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1743.a4 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (step t1743.t1 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1743.t2)
% 32.25/32.45 (assume t1743.t2.a0 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (assume t1743.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (assume t1743.t2.a2 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)))
% 32.25/32.45 (assume t1743.t2.a3 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.45 (assume t1743.t2.a4 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))
% 32.25/32.45 (step t1743.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14)) :rule symm :premises (t1743.t2.a4))
% 32.25/32.45 (step t1743.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.h5 tptp.e14))) :rule cong :premises (t1743.t2.t1))
% 32.25/32.45 (step t1743.t2.t3 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t1743.t2.a3))
% 32.25/32.45 (step t1743.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24)) :rule symm :premises (t1743.t2.a2))
% 32.25/32.45 (step t1743.t2.t5 (cl (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t1743.t2.t4))
% 32.25/32.45 (step t1743.t2.t6 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t1743.t2.a1))
% 32.25/32.45 (step t1743.t2.t7 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1743.t2.t6))
% 32.25/32.45 (step t1743.t2.t8 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1743.t2.a0))
% 32.25/32.45 (step t1743.t2.t9 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t1743.t2.t8))
% 32.25/32.45 (step t1743.t2.t10 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t1743.t2.t7 t1743.t2.t9))
% 32.25/32.45 (step t1743.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule cong :premises (t1743.t2.t10 t1743.t2.t10))
% 32.25/32.45 (step t1743.t2.t12 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule trans :premises (t1743.t2.t2 t1743.t2.t3 t1743.t2.t5 t1743.t2.t11))
% 32.25/32.45 (step t1743.t2 (cl (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t1743.t2.a0 t1743.t2.a1 t1743.t2.a2 t1743.t2.a3 t1743.t2.a4))
% 32.25/32.45 (step t1743.t3 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1743.t4 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1743.t5 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.25/32.45 (step t1743.t6 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1743.t7 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1743.t8 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t1743.t2 t1743.t3 t1743.t4 t1743.t5 t1743.t6 t1743.t7))
% 32.25/32.45 (step t1743.t9 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1743.t8))
% 32.25/32.45 (step t1743.t10 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule contraction :premises (t1743.t9))
% 32.25/32.45 (step t1743.t11 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule resolution :premises (t1743.t1 t1743.t10))
% 32.25/32.45 (step t1743.t12 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.25/32.45 (step t1743.t13 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1743.t11 t1743.t12))
% 32.25/32.45 (step t1743.t14 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule contraction :premises (t1743.t13))
% 32.25/32.45 (step t1743.t15 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule implies :premises (t1743.t14))
% 32.25/32.45 (step t1743.t16 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) :rule and_neg)
% 32.25/32.45 (step t1743.t17 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t1743.t16 t1743.a4 t1743.a0 t1743.a2 t1743.a3 t1743.a1))
% 32.25/32.45 (step t1743.t18 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule resolution :premises (t1743.t15 t1743.t17))
% 32.25/32.45 (step t1743 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t1743.a0 t1743.a1 t1743.a2 t1743.a3 t1743.a4))
% 32.25/32.45 (step t1744 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1745 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1746 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.25/32.45 (step t1747 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1748 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1749 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1743 t1744 t1745 t1746 t1747 t1748))
% 32.25/32.45 (step t1750 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1749))
% 32.25/32.45 (step t1751 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule contraction :premises (t1750))
% 32.25/32.45 (step t1752 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule resolution :premises (t1742 t1751))
% 32.25/32.45 (step t1753 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.25/32.45 (step t1754 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1752 t1753))
% 32.25/32.45 (step t1755 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule contraction :premises (t1754))
% 32.25/32.45 (step t1756 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule implies :premises (t1755))
% 32.25/32.45 (step t1757 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule resolution :premises (t1741 t1756))
% 32.25/32.45 (step t1758 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1757))
% 32.25/32.45 (step t1759 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.25/32.45 (step t1760 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1761)
% 32.25/32.45 (assume t1761.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.45 (assume t1761.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (assume t1761.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (assume t1761.a3 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.45 (assume t1761.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.45 (assume t1761.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (assume t1761.a6 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (assume t1761.a7 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (step t1761.t1 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1761.t2)
% 32.25/32.45 (assume t1761.t2.a0 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.45 (assume t1761.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.45 (assume t1761.t2.a2 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.45 (assume t1761.t2.a3 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.45 (assume t1761.t2.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.45 (assume t1761.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.45 (assume t1761.t2.a6 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.45 (assume t1761.t2.a7 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.45 (step t1761.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11)) :rule symm :premises (t1761.t2.a7))
% 32.25/32.45 (step t1761.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.h5 tptp.e11))) :rule cong :premises (t1761.t2.t1))
% 32.25/32.45 (step t1761.t2.t3 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t1761.t2.a6))
% 32.25/32.45 (step t1761.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t1761.t2.a5))
% 32.25/32.45 (step t1761.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t1761.t2.a4))
% 32.25/32.45 (step t1761.t2.t6 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t1761.t2.t5))
% 32.25/32.45 (step t1761.t2.t7 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t1761.t2.a1))
% 32.25/32.45 (step t1761.t2.t8 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1761.t2.t7))
% 32.25/32.45 (step t1761.t2.t9 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t1761.t2.a0))
% 32.25/32.45 (step t1761.t2.t10 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t1761.t2.t9))
% 32.25/32.45 (step t1761.t2.t11 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t1761.t2.t8 t1761.t2.t10))
% 32.25/32.45 (step t1761.t2.t12 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t1761.t2.a3))
% 32.25/32.45 (step t1761.t2.t13 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t1761.t2.t12))
% 32.25/32.45 (step t1761.t2.t14 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t1761.t2.a2))
% 32.25/32.45 (step t1761.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t1761.t2.t14))
% 32.25/32.45 (step t1761.t2.t16 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t1761.t2.t13 t1761.t2.t15))
% 32.25/32.45 (step t1761.t2.t17 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule cong :premises (t1761.t2.t11 t1761.t2.t16))
% 32.25/32.45 (step t1761.t2.t18 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule trans :premises (t1761.t2.t2 t1761.t2.t3 t1761.t2.t4 t1761.t2.t6 t1761.t2.t17))
% 32.25/32.45 (step t1761.t2 (cl (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t1761.t2.a0 t1761.t2.a1 t1761.t2.a2 t1761.t2.a3 t1761.t2.a4 t1761.t2.a5 t1761.t2.a6 t1761.t2.a7))
% 32.25/32.45 (step t1761.t3 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1761.t4 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1761.t5 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1761.t6 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1761.t7 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.45 (step t1761.t8 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1761.t9 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1761.t10 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1761.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1761.t2 t1761.t3 t1761.t4 t1761.t5 t1761.t6 t1761.t7 t1761.t8 t1761.t9 t1761.t10))
% 32.25/32.45 (step t1761.t12 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule reordering :premises (t1761.t11))
% 32.25/32.45 (step t1761.t13 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule contraction :premises (t1761.t12))
% 32.25/32.45 (step t1761.t14 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule resolution :premises (t1761.t1 t1761.t13))
% 32.25/32.45 (step t1761.t15 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1761.t16 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule resolution :premises (t1761.t14 t1761.t15))
% 32.25/32.45 (step t1761.t17 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule contraction :premises (t1761.t16))
% 32.25/32.45 (step t1761.t18 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule implies :premises (t1761.t17))
% 32.25/32.45 (step t1761.t19 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_neg)
% 32.25/32.45 (step t1761.t20 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1761.t19 t1761.a7 t1761.a2 t1761.a5 t1761.a0 t1761.a4 t1761.a1 t1761.a6 t1761.a3))
% 32.25/32.45 (step t1761.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule resolution :premises (t1761.t18 t1761.t20))
% 32.25/32.45 (step t1761 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t1761.a0 t1761.a1 t1761.a2 t1761.a3 t1761.a4 t1761.a5 t1761.a6 t1761.a7))
% 32.25/32.45 (step t1762 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1763 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.45 (step t1764 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.45 (step t1765 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1766 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.45 (step t1767 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1768 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.45 (step t1769 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.45 (step t1770 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1761 t1762 t1763 t1764 t1765 t1766 t1767 t1768 t1769))
% 32.25/32.45 (step t1771 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule reordering :premises (t1770))
% 32.25/32.45 (step t1772 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule contraction :premises (t1771))
% 32.25/32.45 (step t1773 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule resolution :premises (t1760 t1772))
% 32.25/32.45 (step t1774 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1775 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule resolution :premises (t1773 t1774))
% 32.25/32.45 (step t1776 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule contraction :premises (t1775))
% 32.25/32.45 (step t1777 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule implies :premises (t1776))
% 32.25/32.45 (step t1778 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule resolution :premises (t1759 t1777))
% 32.25/32.45 (step t1779 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t1778))
% 32.25/32.45 (step t1780 (cl (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule and :premises (t1107))
% 32.25/32.45 (step t1781 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) :rule or :premises (t1780))
% 32.25/32.45 (step t1782 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_pos2)
% 32.25/32.45 (step t1783 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.45 (step t1784 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule equiv1 :premises (t1783))
% 32.25/32.45 (step t1785 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))))) :rule all_simplify)
% 32.25/32.45 (step t1786 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule refl)
% 32.25/32.45 (step t1787 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.45 (step t1788 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t1786 t1787))
% 32.25/32.45 (step t1789 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) :rule all_simplify)
% 32.25/32.45 (step t1790 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) true)) :rule trans :premises (t1788 t1789))
% 32.25/32.45 (step t1791 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) :rule trans :premises (t1785 t1790))
% 32.25/32.45 (step t1792 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t1784 t1791))
% 32.25/32.45 (step t1793 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule refl)
% 32.25/32.45 (step t1794 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))))) :rule cong :premises (t1111 t1792 t1793))
% 32.25/32.45 (step t1795 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule and_neg)
% 32.25/32.45 (step t1796 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1797)
% 32.25/32.45 (assume t1797.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1797.a1 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))
% 32.25/32.45 (step t1797.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1797.t2)
% 32.25/32.45 (assume t1797.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))
% 32.25/32.45 (assume t1797.t2.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (step t1797.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) false) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.45 (step t1797.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) false)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule equiv1 :premises (t1797.t2.t1))
% 32.25/32.45 (step t1797.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1797.t2.a1))
% 32.25/32.45 (step t1797.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1797.t2.t3))
% 32.25/32.45 (step t1797.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule refl)
% 32.25/32.45 (step t1797.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule cong :premises (t1797.t2.t4 t1797.t2.t5))
% 32.25/32.45 (step t1797.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.45 (step t1797.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv2 :premises (t1797.t2.t7))
% 32.25/32.45 (step t1797.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule not_not)
% 32.25/32.45 (step t1797.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule resolution :premises (t1797.t2.t8 t1797.t2.t9))
% 32.25/32.45 (step t1797.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false)) :rule resolution :premises (t1797.t2.t10 t1797.t2.a0))
% 32.25/32.45 (step t1797.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) false)) :rule trans :premises (t1797.t2.t6 t1797.t2.t11))
% 32.25/32.45 (step t1797.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t1797.t2.t2 t1797.t2.t12))
% 32.25/32.45 (step t1797.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t1797.t2.a0 t1797.t2.a1))
% 32.25/32.45 (step t1797.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1797.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1797.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t1797.t2 t1797.t3 t1797.t4))
% 32.25/32.45 (step t1797.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t1797.t5))
% 32.25/32.45 (step t1797.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t1797.t6))
% 32.25/32.45 (step t1797.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t1797.t1 t1797.t7))
% 32.25/32.45 (step t1797.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1797.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t1797.t8 t1797.t9))
% 32.25/32.45 (step t1797.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t1797.t10))
% 32.25/32.45 (step t1797.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t1797.t11))
% 32.25/32.45 (step t1797.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.45 (step t1797.t14 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t1797.t13 t1797.a1 t1797.a0))
% 32.25/32.45 (step t1797.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t1797.t12 t1797.t14))
% 32.25/32.45 (step t1797 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t1797.a0 t1797.a1))
% 32.25/32.45 (step t1798 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1799 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and_pos)
% 32.25/32.45 (step t1800 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))))) :rule resolution :premises (t1797 t1798 t1799))
% 32.25/32.45 (step t1801 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t1800))
% 32.25/32.45 (step t1802 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t1801))
% 32.25/32.45 (step t1803 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t1796 t1802))
% 32.25/32.45 (step t1804 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.25/32.45 (step t1805 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t1803 t1804))
% 32.25/32.45 (step t1806 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t1805))
% 32.25/32.45 (step t1807 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t1806))
% 32.25/32.45 (step t1808 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t1795 t1807))
% 32.25/32.45 (step t1809 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.45 (step t1810 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))))) :rule or_neg)
% 32.25/32.45 (step t1811 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule or_neg)
% 32.25/32.45 (step t1812 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t1808 t1809 t1810 t1811))
% 32.25/32.45 (step t1813 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t1812))
% 32.25/32.45 (step t1814 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t1782 t1794 t1813))
% 32.25/32.45 (step t1815 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule or :premises (t1814))
% 32.25/32.45 (step t1816 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t1815))
% 32.25/32.45 (step t1817 (cl (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and :premises (t1360))
% 32.25/32.45 (step t1818 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t1816 t1817 t767))
% 32.25/32.45 (step t1819 (cl (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule and :premises (t1107))
% 32.25/32.45 (step t1820 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule or :premises (t1819))
% 32.25/32.45 (step t1821 (cl (or (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule and :premises (t1107))
% 32.25/32.45 (step t1822 (cl (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) :rule or :premises (t1821))
% 32.25/32.45 (step t1823 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.45 (step t1824 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule refl)
% 32.25/32.45 (step t1825 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1826 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t1825))
% 32.25/32.45 (step t1827 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))))) :rule all_simplify)
% 32.25/32.45 (step t1828 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule refl)
% 32.25/32.45 (step t1829 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.45 (step t1830 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t1828 t1829))
% 32.25/32.45 (step t1831 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.45 (step t1832 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) true)) :rule trans :premises (t1830 t1831))
% 32.25/32.45 (step t1833 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) true)) :rule trans :premises (t1827 t1832))
% 32.25/32.45 (step t1834 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1826 t1833))
% 32.25/32.45 (step t1835 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))))) :rule cong :premises (t1824 t1834 t1112))
% 32.25/32.45 (step t1836 (cl (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule and_neg)
% 32.25/32.45 (step t1837 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1838)
% 32.25/32.45 (assume t1838.a0 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.45 (assume t1838.a1 (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))
% 32.25/32.45 (step t1838.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1838.t2)
% 32.25/32.45 (assume t1838.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))
% 32.25/32.45 (assume t1838.t2.a1 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.45 (step t1838.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) false) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1838.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) false)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t1838.t2.t1))
% 32.25/32.45 (step t1838.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11)) :rule symm :premises (t1838.t2.a1))
% 32.25/32.45 (step t1838.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule symm :premises (t1838.t2.t3))
% 32.25/32.45 (step t1838.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule refl)
% 32.25/32.45 (step t1838.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule cong :premises (t1838.t2.t4 t1838.t2.t5))
% 32.25/32.45 (step t1838.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1838.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv2 :premises (t1838.t2.t7))
% 32.25/32.45 (step t1838.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule not_not)
% 32.25/32.45 (step t1838.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule resolution :premises (t1838.t2.t8 t1838.t2.t9))
% 32.25/32.45 (step t1838.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false)) :rule resolution :premises (t1838.t2.t10 t1838.t2.a0))
% 32.25/32.45 (step t1838.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) false)) :rule trans :premises (t1838.t2.t6 t1838.t2.t11))
% 32.25/32.45 (step t1838.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1838.t2.t2 t1838.t2.t12))
% 32.25/32.45 (step t1838.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t1838.t2.a0 t1838.t2.a1))
% 32.25/32.45 (step t1838.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.25/32.45 (step t1838.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1838.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1838.t2 t1838.t3 t1838.t4))
% 32.25/32.45 (step t1838.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t1838.t5))
% 32.25/32.45 (step t1838.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t1838.t6))
% 32.25/32.45 (step t1838.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1838.t1 t1838.t7))
% 32.25/32.45 (step t1838.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1838.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1838.t8 t1838.t9))
% 32.25/32.45 (step t1838.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t1838.t10))
% 32.25/32.45 (step t1838.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t1838.t11))
% 32.25/32.45 (step t1838.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_neg)
% 32.25/32.45 (step t1838.t14 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1838.t13 t1838.a1 t1838.a0))
% 32.25/32.45 (step t1838.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1838.t12 t1838.t14))
% 32.25/32.45 (step t1838 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t1838.a0 t1838.a1))
% 32.25/32.45 (step t1839 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1840 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.25/32.45 (step t1841 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))))) :rule resolution :premises (t1838 t1839 t1840))
% 32.25/32.45 (step t1842 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t1841))
% 32.25/32.45 (step t1843 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t1842))
% 32.25/32.45 (step t1844 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1837 t1843))
% 32.25/32.45 (step t1845 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1846 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1844 t1845))
% 32.25/32.45 (step t1847 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t1846))
% 32.25/32.45 (step t1848 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t1847))
% 32.25/32.45 (step t1849 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t1836 t1848))
% 32.25/32.45 (step t1850 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule or_neg)
% 32.25/32.45 (step t1851 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))))) :rule or_neg)
% 32.25/32.45 (step t1852 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule or_neg)
% 32.25/32.45 (step t1853 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1849 t1850 t1851 t1852))
% 32.25/32.45 (step t1854 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t1853))
% 32.25/32.45 (step t1855 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t1823 t1835 t1854))
% 32.25/32.45 (step t1856 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule or :premises (t1855))
% 32.25/32.45 (step t1857 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t1856))
% 32.25/32.45 (step t1858 (cl (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.45 (step t1859 (cl (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1537 t1567 t1589 t1609 t1626 t1644 t1662 t1681 t1699 t1701 t1722 t1588 t1566 t1565 t864 t461 t865 t1740 t1565 t1564 t865 t1758 t1588 t1564 t864 t1779 t1588 t1566 t1565 t864 t461 t865 t1781 t1818 t1820 t1822 t1857 t1858))
% 32.25/32.45 (step t1860 (cl (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t1859))
% 32.25/32.45 (step t1861 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.45 (step t1862 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule refl)
% 32.25/32.45 (step t1863 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))))) :rule cong :premises (t1111 t1824 t1113 t1114 t1115 t1125 t1862))
% 32.25/32.45 (step t1864 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule and_neg)
% 32.25/32.45 (step t1865 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1866)
% 32.25/32.45 (assume t1866.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1866.a1 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.45 (assume t1866.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.25/32.45 (assume t1866.a3 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.45 (assume t1866.a4 (= tptp.e12 tptp.unit1))
% 32.25/32.45 (assume t1866.a5 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.25/32.45 (step t1866.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1866.t2)
% 32.25/32.45 (assume t1866.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.25/32.45 (assume t1866.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))
% 32.25/32.45 (assume t1866.t2.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))
% 32.25/32.45 (assume t1866.t2.a3 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.45 (assume t1866.t2.a4 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.45 (step t1866.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) false) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.45 (step t1866.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) false)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule equiv1 :premises (t1866.t2.t1))
% 32.25/32.45 (step t1866.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule symm :premises (t1866.t2.a1))
% 32.25/32.45 (step t1866.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t1866.t2.t3))
% 32.25/32.45 (step t1866.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1866.t2.a3))
% 32.25/32.45 (step t1866.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) :rule symm :premises (t1866.t2.a2))
% 32.25/32.45 (step t1866.t2.t7 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t1866.t2.t6))
% 32.25/32.45 (step t1866.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t1866.t2.t5 t1866.t2.t7))
% 32.25/32.45 (step t1866.t2.t9 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1866.t2.t8))
% 32.25/32.45 (step t1866.t2.t10 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11)) :rule symm :premises (t1866.t2.a4))
% 32.25/32.45 (step t1866.t2.t11 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e14 tptp.e14))) :rule trans :premises (t1866.t2.t10 t1866.t2.a3))
% 32.25/32.45 (step t1866.t2.t12 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e13 tptp.e10))) :rule symm :premises (t1866.t2.t11))
% 32.25/32.45 (step t1866.t2.t13 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t1866.t2.t9 t1866.t2.t12))
% 32.25/32.45 (step t1866.t2.t14 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t1866.t2.t13))
% 32.25/32.45 (step t1866.t2.t15 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule cong :premises (t1866.t2.t4 t1866.t2.t14))
% 32.25/32.45 (step t1866.t2.t16 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.45 (step t1866.t2.t17 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv2 :premises (t1866.t2.t16))
% 32.25/32.45 (step t1866.t2.t18 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule not_not)
% 32.25/32.45 (step t1866.t2.t19 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t1866.t2.t17 t1866.t2.t18))
% 32.25/32.45 (step t1866.t2.t20 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false)) :rule resolution :premises (t1866.t2.t19 t1866.t2.a0))
% 32.25/32.45 (step t1866.t2.t21 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) false)) :rule trans :premises (t1866.t2.t15 t1866.t2.t20))
% 32.25/32.45 (step t1866.t2.t22 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1866.t2.t2 t1866.t2.t21))
% 32.25/32.45 (step t1866.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t1866.t2.a0 t1866.t2.a1 t1866.t2.a2 t1866.t2.a3 t1866.t2.a4))
% 32.25/32.45 (step t1866.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.25/32.45 (step t1866.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.25/32.45 (step t1866.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.25/32.45 (step t1866.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1866.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1866.t8 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1866.t2 t1866.t3 t1866.t4 t1866.t5 t1866.t6 t1866.t7))
% 32.25/32.45 (step t1866.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t1866.t8))
% 32.25/32.45 (step t1866.t10 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t1866.t9))
% 32.25/32.45 (step t1866.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1866.t1 t1866.t10))
% 32.25/32.45 (step t1866.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1866.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1866.t11 t1866.t12))
% 32.25/32.45 (step t1866.t14 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t1866.t13))
% 32.25/32.45 (step t1866.t15 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t1866.t14))
% 32.25/32.45 (step t1866.t16 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_neg)
% 32.25/32.45 (step t1866.t17 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1866.t18)
% 32.25/32.45 (assume t1866.t18.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.45 (assume t1866.t18.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.45 (step t1866.t18.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t1866.t18.a1))
% 32.25/32.45 (step t1866.t18.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t1866.t18.t1))
% 32.25/32.45 (step t1866.t18.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.45 (step t1866.t18.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t1866.t18.a0))
% 32.25/32.45 (step t1866.t18.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e12))) :rule cong :premises (t1866.t18.t3 t1866.t18.t4))
% 32.25/32.45 (step t1866.t18.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t1866.t18.t2 t1866.t18.t5))
% 32.25/32.45 (step t1866.t18 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule subproof :discharge (t1866.t18.a0 t1866.t18.a1))
% 32.25/32.45 (step t1866.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.45 (step t1866.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.45 (step t1866.t21 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t1866.t18 t1866.t19 t1866.t20))
% 32.25/32.45 (step t1866.t22 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule reordering :premises (t1866.t21))
% 32.25/32.45 (step t1866.t23 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t1866.t22))
% 32.25/32.45 (step t1866.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t1866.t17 t1866.t23))
% 32.25/32.45 (step t1866.t25 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg2)
% 32.25/32.45 (step t1866.t26 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t1866.t24 t1866.t25))
% 32.25/32.45 (step t1866.t27 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t1866.t26))
% 32.25/32.45 (step t1866.t28 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule implies :premises (t1866.t27))
% 32.25/32.45 (step t1866.t29 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.25/32.45 (step t1866.t30 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t1866.t29 t1866.a4 t1866.a3))
% 32.25/32.45 (step t1866.t31 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t1866.t28 t1866.t30))
% 32.25/32.45 (step t1866.t32 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1866.t33)
% 32.25/32.45 (assume t1866.t33.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.45 (assume t1866.t33.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.25/32.45 (step t1866.t33.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t1866.t33.a1))
% 32.25/32.45 (step t1866.t33.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t1866.t33.t1))
% 32.25/32.45 (step t1866.t33.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.25/32.45 (step t1866.t33.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t1866.t33.a0))
% 32.25/32.45 (step t1866.t33.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e12))) :rule cong :premises (t1866.t33.t3 t1866.t33.t4))
% 32.25/32.45 (step t1866.t33.t6 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t1866.t33.t2 t1866.t33.t5))
% 32.25/32.45 (step t1866.t33 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule subproof :discharge (t1866.t33.a0 t1866.t33.a1))
% 32.25/32.45 (step t1866.t34 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.45 (step t1866.t35 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.25/32.45 (step t1866.t36 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t1866.t33 t1866.t34 t1866.t35))
% 32.25/32.45 (step t1866.t37 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule reordering :premises (t1866.t36))
% 32.25/32.45 (step t1866.t38 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule contraction :premises (t1866.t37))
% 32.25/32.45 (step t1866.t39 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t1866.t32 t1866.t38))
% 32.25/32.45 (step t1866.t40 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg2)
% 32.25/32.45 (step t1866.t41 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t1866.t39 t1866.t40))
% 32.25/32.45 (step t1866.t42 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t1866.t41))
% 32.25/32.45 (step t1866.t43 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule implies :premises (t1866.t42))
% 32.25/32.45 (step t1866.t44 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.25/32.45 (step t1866.t45 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t1866.t44 t1866.a4 t1866.a2))
% 32.25/32.45 (step t1866.t46 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t1866.t43 t1866.t45))
% 32.25/32.45 (step t1866.t47 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1866.t16 t1866.a5 t1866.t31 t1866.t46 t1866.a0 t1866.a1))
% 32.25/32.45 (step t1866.t48 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1866.t15 t1866.t47))
% 32.25/32.45 (step t1866 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t1866.a0 t1866.a1 t1866.a2 t1866.a3 t1866.a4 t1866.a5))
% 32.25/32.45 (step t1867 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.45 (step t1868 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.45 (step t1869 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.25/32.45 (step t1870 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.45 (step t1871 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.45 (step t1872 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.25/32.45 (step t1873 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule resolution :premises (t1866 t1867 t1868 t1869 t1870 t1871 t1872))
% 32.25/32.45 (step t1874 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t1873))
% 32.25/32.45 (step t1875 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t1874))
% 32.25/32.45 (step t1876 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1865 t1875))
% 32.25/32.45 (step t1877 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.25/32.45 (step t1878 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1876 t1877))
% 32.25/32.45 (step t1879 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t1878))
% 32.25/32.45 (step t1880 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t1879))
% 32.25/32.45 (step t1881 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t1864 t1880))
% 32.25/32.45 (step t1882 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.45 (step t1883 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule or_neg)
% 32.25/32.45 (step t1884 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.25/32.45 (step t1885 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.25/32.45 (step t1886 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.45 (step t1887 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule or_neg)
% 32.25/32.45 (step t1888 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule or_neg)
% 32.25/32.45 (step t1889 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1881 t1882 t1883 t1884 t1885 t1886 t1887 t1888))
% 32.25/32.45 (step t1890 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t1889))
% 32.25/32.45 (step t1891 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t1861 t1863 t1890))
% 32.25/32.45 (step t1892 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule or :premises (t1891))
% 32.25/32.45 (step t1893 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t1892))
% 32.25/32.45 (step t1894 (cl (not (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))))) (not (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv_pos2)
% 32.25/32.45 (step t1895 (cl (= (= (= (not (not (= tptp.e14 tptp.unit1))) (= tptp.e14 tptp.unit1)) true) (= (not (not (= tptp.e14 tptp.unit1))) (= tptp.e14 tptp.unit1)))) :rule equiv_simplify)
% 32.25/32.45 (step t1896 (cl (not (= (= (not (not (= tptp.e14 tptp.unit1))) (= tptp.e14 tptp.unit1)) true)) (= (not (not (= tptp.e14 tptp.unit1))) (= tptp.e14 tptp.unit1))) :rule equiv1 :premises (t1895))
% 32.25/32.45 (step t1897 (cl (= (= (not (not (= tptp.e14 tptp.unit1))) (= tptp.e14 tptp.unit1)) (= (= tptp.e14 tptp.unit1) (not (not (= tptp.e14 tptp.unit1)))))) :rule all_simplify)
% 32.25/32.45 (step t1898 (cl (= (= tptp.e14 tptp.unit1) (= tptp.e14 tptp.unit1))) :rule refl)
% 32.25/32.45 (step t1899 (cl (= (not (not (= tptp.e14 tptp.unit1))) (= tptp.e14 tptp.unit1))) :rule all_simplify)
% 32.25/32.45 (step t1900 (cl (= (= (= tptp.e14 tptp.unit1) (not (not (= tptp.e14 tptp.unit1)))) (= (= tptp.e14 tptp.unit1) (= tptp.e14 tptp.unit1)))) :rule cong :premises (t1898 t1899))
% 32.25/32.45 (step t1901 (cl (= (= (= tptp.e14 tptp.unit1) (= tptp.e14 tptp.unit1)) true)) :rule all_simplify)
% 32.25/32.45 (step t1902 (cl (= (= (= tptp.e14 tptp.unit1) (not (not (= tptp.e14 tptp.unit1)))) true)) :rule trans :premises (t1900 t1901))
% 32.25/32.45 (step t1903 (cl (= (= (not (not (= tptp.e14 tptp.unit1))) (= tptp.e14 tptp.unit1)) true)) :rule trans :premises (t1897 t1902))
% 32.25/32.45 (step t1904 (cl (= (not (not (= tptp.e14 tptp.unit1))) (= tptp.e14 tptp.unit1))) :rule resolution :premises (t1896 t1903))
% 32.25/32.45 (step t1905 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule refl)
% 32.25/32.45 (step t1906 (cl (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))))) :rule cong :premises (t1414 t1415 t1115 t1904 t1905))
% 32.25/32.45 (step t1907 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.25/32.45 (step t1908 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1909)
% 32.25/32.45 (assume t1909.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.25/32.45 (assume t1909.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.45 (assume t1909.a2 (= tptp.e12 tptp.unit1))
% 32.25/32.45 (assume t1909.a3 (not (= tptp.e14 tptp.unit1)))
% 32.25/32.45 (step t1909.t1 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg1)
% 32.25/32.45 (anchor :step t1909.t2)
% 32.25/32.45 (assume t1909.t2.a0 (not (= tptp.e14 tptp.unit1)))
% 32.25/32.45 (assume t1909.t2.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.45 (assume t1909.t2.a2 (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))
% 32.25/32.45 (step t1909.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) false) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.45 (step t1909.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) false)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule equiv1 :premises (t1909.t2.t1))
% 32.25/32.45 (step t1909.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.45 (step t1909.t2.t4 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule symm :premises (t1909.t2.a2))
% 32.25/32.45 (step t1909.t2.t5 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t1909.t2.a1))
% 32.25/32.45 (step t1909.t2.t6 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t1909.t2.t5))
% 32.25/32.45 (step t1909.t2.t7 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.unit1)) :rule trans :premises (t1909.t2.t4 t1909.t2.t6))
% 32.25/32.45 (step t1909.t2.t8 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e14 tptp.unit1))) :rule cong :premises (t1909.t2.t3 t1909.t2.t7))
% 32.25/32.45 (step t1909.t2.t9 (cl (= (= (= tptp.e14 tptp.unit1) false) (not (= tptp.e14 tptp.unit1)))) :rule equiv_simplify)
% 32.25/32.45 (step t1909.t2.t10 (cl (= (= tptp.e14 tptp.unit1) false) (not (not (= tptp.e14 tptp.unit1)))) :rule equiv2 :premises (t1909.t2.t9))
% 32.25/32.45 (step t1909.t2.t11 (cl (not (not (not (= tptp.e14 tptp.unit1)))) (= tptp.e14 tptp.unit1)) :rule not_not)
% 32.25/32.45 (step t1909.t2.t12 (cl (= (= tptp.e14 tptp.unit1) false) (= tptp.e14 tptp.unit1)) :rule resolution :premises (t1909.t2.t10 t1909.t2.t11))
% 32.25/32.45 (step t1909.t2.t13 (cl (= (= tptp.e14 tptp.unit1) false)) :rule resolution :premises (t1909.t2.t12 t1909.t2.a0))
% 32.25/32.45 (step t1909.t2.t14 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) false)) :rule trans :premises (t1909.t2.t8 t1909.t2.t13))
% 32.25/32.45 (step t1909.t2.t15 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1909.t2.t2 t1909.t2.t14))
% 32.25/32.45 (step t1909.t2 (cl (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule subproof :discharge (t1909.t2.a0 t1909.t2.a1 t1909.t2.a2))
% 32.25/32.46 (step t1909.t3 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t1909.t4 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t1909.t5 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1909.t6 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1909.t2 t1909.t3 t1909.t4 t1909.t5))
% 32.25/32.46 (step t1909.t7 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule reordering :premises (t1909.t6))
% 32.25/32.46 (step t1909.t8 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t1909.t7))
% 32.25/32.46 (step t1909.t9 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1909.t1 t1909.t8))
% 32.25/32.46 (step t1909.t10 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule implies_neg2)
% 32.25/32.46 (step t1909.t11 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1909.t9 t1909.t10))
% 32.25/32.46 (step t1909.t12 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule contraction :premises (t1909.t11))
% 32.25/32.46 (step t1909.t13 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies :premises (t1909.t12))
% 32.25/32.46 (step t1909.t14 (cl (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule and_neg)
% 32.25/32.46 (step t1909.t15 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t1909.t16)
% 32.25/32.46 (assume t1909.t16.a0 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.46 (assume t1909.t16.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.25/32.46 (step t1909.t16.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t1909.t16.a1))
% 32.25/32.46 (step t1909.t16.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t1909.t16.t1))
% 32.25/32.46 (step t1909.t16.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t1909.t16.a0))
% 32.25/32.46 (step t1909.t16.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t1909.t16.t3))
% 32.25/32.46 (step t1909.t16.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t1909.t16.t4))
% 32.25/32.46 (step t1909.t16.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.46 (step t1909.t16.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t1909.t16.t5 t1909.t16.t6))
% 32.25/32.46 (step t1909.t16.t8 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t1909.t16.t2 t1909.t16.t7))
% 32.25/32.46 (step t1909.t16 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule subproof :discharge (t1909.t16.a0 t1909.t16.a1))
% 32.25/32.46 (step t1909.t17 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.46 (step t1909.t18 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1909.t19 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t1909.t16 t1909.t17 t1909.t18))
% 32.25/32.46 (step t1909.t20 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule reordering :premises (t1909.t19))
% 32.25/32.46 (step t1909.t21 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t1909.t20))
% 32.25/32.46 (step t1909.t22 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t1909.t15 t1909.t21))
% 32.25/32.46 (step t1909.t23 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg2)
% 32.25/32.46 (step t1909.t24 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1909.t22 t1909.t23))
% 32.25/32.46 (step t1909.t25 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t1909.t24))
% 32.25/32.46 (step t1909.t26 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule implies :premises (t1909.t25))
% 32.25/32.46 (step t1909.t27 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.25/32.46 (step t1909.t28 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t1909.t27 t1909.a1 t1909.a0))
% 32.25/32.46 (step t1909.t29 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t1909.t26 t1909.t28))
% 32.25/32.46 (step t1909.t30 (cl (and (not (= tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1909.t14 t1909.a3 t1909.a2 t1909.t29))
% 32.25/32.46 (step t1909.t31 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1909.t13 t1909.t30))
% 32.25/32.46 (step t1909 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule subproof :discharge (t1909.a0 t1909.a1 t1909.a2 t1909.a3))
% 32.25/32.46 (step t1910 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1911 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.46 (step t1912 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t1913 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t1914 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1))))) :rule resolution :premises (t1909 t1910 t1911 t1912 t1913))
% 32.25/32.46 (step t1915 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule reordering :premises (t1914))
% 32.25/32.46 (step t1916 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t1915))
% 32.25/32.46 (step t1917 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1908 t1916))
% 32.25/32.46 (step t1918 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule implies_neg2)
% 32.25/32.46 (step t1919 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1917 t1918))
% 32.25/32.46 (step t1920 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule contraction :premises (t1919))
% 32.25/32.46 (step t1921 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies :premises (t1920))
% 32.25/32.46 (step t1922 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t1907 t1921))
% 32.25/32.46 (step t1923 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule or_neg)
% 32.25/32.46 (step t1924 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.25/32.46 (step t1925 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.46 (step t1926 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (not (= tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.25/32.46 (step t1927 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule or_neg)
% 32.25/32.46 (step t1928 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1922 t1923 t1924 t1925 t1926 t1927))
% 32.25/32.46 (step t1929 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule contraction :premises (t1928))
% 32.25/32.46 (step t1930 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t1894 t1906 t1929))
% 32.25/32.46 (step t1931 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)))) :rule or :premises (t1930))
% 32.25/32.46 (step t1932 (cl (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t1931))
% 32.25/32.46 (step t1933 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e14 tptp.unit1))) :rule and_neg)
% 32.25/32.46 (step t1934 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1)) (= tptp.e11 tptp.e14)) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t1935)
% 32.25/32.46 (assume t1935.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.46 (assume t1935.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.46 (assume t1935.a2 (= tptp.e14 tptp.unit1))
% 32.25/32.46 (step t1935.t1 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 tptp.e14)) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t1935.t2)
% 32.25/32.46 (assume t1935.t2.a0 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.46 (assume t1935.t2.a1 (= tptp.e14 tptp.unit1))
% 32.25/32.46 (assume t1935.t2.a2 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.46 (step t1935.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1935.t2.a2))
% 32.25/32.46 (step t1935.t2.t2 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1935.t2.t1))
% 32.25/32.46 (step t1935.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.46 (step t1935.t2.t4 (cl (= tptp.unit1 tptp.e14)) :rule symm :premises (t1935.t2.a1))
% 32.25/32.46 (step t1935.t2.t5 (cl (= tptp.e14 tptp.unit1)) :rule symm :premises (t1935.t2.t4))
% 32.25/32.46 (step t1935.t2.t6 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.unit1))) :rule cong :premises (t1935.t2.t3 t1935.t2.t5))
% 32.25/32.46 (step t1935.t2.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t1935.t2.a0))
% 32.25/32.46 (step t1935.t2.t8 (cl (= tptp.e11 tptp.e14)) :rule trans :premises (t1935.t2.t2 t1935.t2.t6 t1935.t2.t7))
% 32.25/32.46 (step t1935.t2 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e14 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 tptp.e14)) :rule subproof :discharge (t1935.t2.a0 t1935.t2.a1 t1935.t2.a2))
% 32.25/32.46 (step t1935.t3 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t1935.t4 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e14 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t1935.t5 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1935.t6 (cl (= tptp.e11 tptp.e14) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t1935.t2 t1935.t3 t1935.t4 t1935.t5))
% 32.25/32.46 (step t1935.t7 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 tptp.e14)) :rule reordering :premises (t1935.t6))
% 32.25/32.46 (step t1935.t8 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 tptp.e14)) :rule contraction :premises (t1935.t7))
% 32.25/32.46 (step t1935.t9 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 tptp.e14)) (= tptp.e11 tptp.e14)) :rule resolution :premises (t1935.t1 t1935.t8))
% 32.25/32.46 (step t1935.t10 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 tptp.e14)) (not (= tptp.e11 tptp.e14))) :rule implies_neg2)
% 32.25/32.46 (step t1935.t11 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 tptp.e14)) (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 tptp.e14))) :rule resolution :premises (t1935.t9 t1935.t10))
% 32.25/32.46 (step t1935.t12 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 tptp.e14))) :rule contraction :premises (t1935.t11))
% 32.25/32.46 (step t1935.t13 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 tptp.e14)) :rule implies :premises (t1935.t12))
% 32.25/32.46 (step t1935.t14 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e14 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.25/32.46 (step t1935.t15 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t1935.t14 t1935.a1 t1935.a2 t1935.a0))
% 32.25/32.46 (step t1935.t16 (cl (= tptp.e11 tptp.e14)) :rule resolution :premises (t1935.t13 t1935.t15))
% 32.25/32.46 (step t1935 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e14 tptp.unit1)) (= tptp.e11 tptp.e14)) :rule subproof :discharge (t1935.a0 t1935.a1 t1935.a2))
% 32.25/32.46 (step t1936 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1937 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t1938 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (= tptp.e14 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t1939 (cl (= tptp.e11 tptp.e14) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1)))) :rule resolution :premises (t1935 t1936 t1937 t1938))
% 32.25/32.46 (step t1940 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (= tptp.e11 tptp.e14)) :rule reordering :premises (t1939))
% 32.25/32.46 (step t1941 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (= tptp.e11 tptp.e14)) :rule contraction :premises (t1940))
% 32.25/32.46 (step t1942 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1)) (= tptp.e11 tptp.e14)) (= tptp.e11 tptp.e14)) :rule resolution :premises (t1934 t1941))
% 32.25/32.46 (step t1943 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1)) (= tptp.e11 tptp.e14)) (not (= tptp.e11 tptp.e14))) :rule implies_neg2)
% 32.25/32.46 (step t1944 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1)) (= tptp.e11 tptp.e14)) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1)) (= tptp.e11 tptp.e14))) :rule resolution :premises (t1942 t1943))
% 32.25/32.46 (step t1945 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1)) (= tptp.e11 tptp.e14))) :rule contraction :premises (t1944))
% 32.25/32.46 (step t1946 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e14 tptp.unit1))) (= tptp.e11 tptp.e14)) :rule implies :premises (t1945))
% 32.25/32.46 (step t1947 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e14 tptp.unit1)) (= tptp.e11 tptp.e14)) :rule resolution :premises (t1933 t1946))
% 32.25/32.46 (step t1948 (cl (= tptp.e11 tptp.e14) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e14 tptp.unit1))) :rule reordering :premises (t1947))
% 32.25/32.46 (step t1949 (cl (not (= tptp.e11 tptp.e14))) :rule and :premises (a8))
% 32.25/32.46 (step t1950 (cl (not (= tptp.e14 tptp.unit1))) :rule resolution :premises (t1948 t767 t1949 t1381))
% 32.25/32.46 (step t1951 (cl (not (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))))) (not (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_pos2)
% 32.25/32.46 (step t1952 (cl (= (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule refl)
% 32.25/32.46 (step t1953 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule refl)
% 32.25/32.46 (step t1954 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule refl)
% 32.25/32.46 (step t1955 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.46 (step t1956 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv1 :premises (t1955))
% 32.25/32.46 (step t1957 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) :rule all_simplify)
% 32.25/32.46 (step t1958 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule refl)
% 32.25/32.46 (step t1959 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.46 (step t1960 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t1958 t1959))
% 32.25/32.46 (step t1961 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true)) :rule all_simplify)
% 32.25/32.46 (step t1962 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) true)) :rule trans :premises (t1960 t1961))
% 32.25/32.46 (step t1963 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true)) :rule trans :premises (t1957 t1962))
% 32.25/32.46 (step t1964 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t1956 t1963))
% 32.25/32.46 (step t1965 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule refl)
% 32.25/32.46 (step t1966 (cl (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))))) :rule cong :premises (t1952 t1111 t1953 t1954 t1114 t1115 t1964 t1965))
% 32.25/32.46 (step t1967 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule and_neg)
% 32.25/32.46 (step t1968 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t1969)
% 32.25/32.46 (assume t1969.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.46 (assume t1969.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.46 (assume t1969.a2 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.25/32.46 (assume t1969.a3 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.25/32.46 (assume t1969.a4 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.46 (assume t1969.a5 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t1969.a6 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.25/32.46 (step t1969.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t1969.t2)
% 32.25/32.46 (assume t1969.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.25/32.46 (assume t1969.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))
% 32.25/32.46 (assume t1969.t2.a2 (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))
% 32.25/32.46 (assume t1969.t2.a3 (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))
% 32.25/32.46 (assume t1969.t2.a4 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.25/32.46 (step t1969.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) false) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t1969.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) false)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv1 :premises (t1969.t2.t1))
% 32.25/32.46 (step t1969.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule symm :premises (t1969.t2.a1))
% 32.25/32.46 (step t1969.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t1969.t2.t3))
% 32.25/32.46 (step t1969.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t1969.t2.a3))
% 32.25/32.46 (step t1969.t2.t6 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule symm :premises (t1969.t2.t5))
% 32.25/32.46 (step t1969.t2.t7 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t1969.t2.t6))
% 32.25/32.46 (step t1969.t2.t8 (cl (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10)) :rule symm :premises (t1969.t2.a2))
% 32.25/32.46 (step t1969.t2.t9 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule symm :premises (t1969.t2.t8))
% 32.25/32.46 (step t1969.t2.t10 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) :rule trans :premises (t1969.t2.t7 t1969.t2.t9))
% 32.25/32.46 (step t1969.t2.t11 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e11 tptp.e14))) :rule symm :premises (t1969.t2.t10))
% 32.25/32.46 (step t1969.t2.t12 (cl (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10)) :rule symm :premises (t1969.t2.a4))
% 32.25/32.46 (step t1969.t2.t13 (cl (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t1969.t2.t12 t1969.t2.t6))
% 32.25/32.46 (step t1969.t2.t14 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) :rule symm :premises (t1969.t2.t13))
% 32.25/32.46 (step t1969.t2.t15 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) :rule trans :premises (t1969.t2.t11 t1969.t2.t14))
% 32.25/32.46 (step t1969.t2.t16 (cl (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e10 tptp.e12))) :rule symm :premises (t1969.t2.t15))
% 32.25/32.46 (step t1969.t2.t17 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule cong :premises (t1969.t2.t4 t1969.t2.t16))
% 32.25/32.46 (step t1969.t2.t18 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.46 (step t1969.t2.t19 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv2 :premises (t1969.t2.t18))
% 32.25/32.46 (step t1969.t2.t20 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule not_not)
% 32.25/32.46 (step t1969.t2.t21 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t1969.t2.t19 t1969.t2.t20))
% 32.25/32.46 (step t1969.t2.t22 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false)) :rule resolution :premises (t1969.t2.t21 t1969.t2.a0))
% 32.25/32.46 (step t1969.t2.t23 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) false)) :rule trans :premises (t1969.t2.t17 t1969.t2.t22))
% 32.25/32.46 (step t1969.t2.t24 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t1969.t2.t2 t1969.t2.t23))
% 32.25/32.46 (step t1969.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule subproof :discharge (t1969.t2.a0 t1969.t2.a1 t1969.t2.a2 t1969.t2.a3 t1969.t2.a4))
% 32.25/32.46 (step t1969.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.25/32.46 (step t1969.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.25/32.46 (step t1969.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule and_pos)
% 32.25/32.46 (step t1969.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1969.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t1969.t8 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t1969.t2 t1969.t3 t1969.t4 t1969.t5 t1969.t6 t1969.t7))
% 32.25/32.46 (step t1969.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule reordering :premises (t1969.t8))
% 32.25/32.46 (step t1969.t10 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule contraction :premises (t1969.t9))
% 32.25/32.46 (step t1969.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t1969.t1 t1969.t10))
% 32.25/32.46 (step t1969.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t1969.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t1969.t11 t1969.t12))
% 32.25/32.46 (step t1969.t14 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t1969.t13))
% 32.25/32.46 (step t1969.t15 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies :premises (t1969.t14))
% 32.25/32.46 (step t1969.t16 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule and_neg)
% 32.25/32.46 (step t1969.t17 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t1969.t18)
% 32.25/32.46 (assume t1969.t18.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t1969.t18.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.46 (step t1969.t18.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t1969.t18.a1))
% 32.25/32.46 (step t1969.t18.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t1969.t18.t1))
% 32.25/32.46 (step t1969.t18.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.46 (step t1969.t18.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t1969.t18.a0))
% 32.25/32.46 (step t1969.t18.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e12))) :rule cong :premises (t1969.t18.t3 t1969.t18.t4))
% 32.25/32.46 (step t1969.t18.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t1969.t18.t2 t1969.t18.t5))
% 32.25/32.46 (step t1969.t18 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule subproof :discharge (t1969.t18.a0 t1969.t18.a1))
% 32.25/32.46 (step t1969.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t1969.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t1969.t21 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t1969.t18 t1969.t19 t1969.t20))
% 32.25/32.46 (step t1969.t22 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule reordering :premises (t1969.t21))
% 32.25/32.46 (step t1969.t23 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t1969.t22))
% 32.25/32.46 (step t1969.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t1969.t17 t1969.t23))
% 32.25/32.46 (step t1969.t25 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg2)
% 32.25/32.46 (step t1969.t26 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t1969.t24 t1969.t25))
% 32.25/32.46 (step t1969.t27 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t1969.t26))
% 32.25/32.46 (step t1969.t28 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule implies :premises (t1969.t27))
% 32.25/32.46 (step t1969.t29 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.25/32.46 (step t1969.t30 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t1969.t29 t1969.a5 t1969.a4))
% 32.25/32.46 (step t1969.t31 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t1969.t28 t1969.t30))
% 32.25/32.46 (step t1969.t32 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t1969.t33)
% 32.25/32.46 (assume t1969.t33.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t1969.t33.a1 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.25/32.46 (step t1969.t33.t1 (cl (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10)) :rule symm :premises (t1969.t33.a1))
% 32.25/32.46 (step t1969.t33.t2 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule symm :premises (t1969.t33.t1))
% 32.25/32.46 (step t1969.t33.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.25/32.46 (step t1969.t33.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t1969.t33.a0))
% 32.25/32.46 (step t1969.t33.t5 (cl (= (tptp.op1 tptp.e10 tptp.unit1) (tptp.op1 tptp.e10 tptp.e12))) :rule cong :premises (t1969.t33.t3 t1969.t33.t4))
% 32.25/32.46 (step t1969.t33.t6 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule trans :premises (t1969.t33.t2 t1969.t33.t5))
% 32.25/32.46 (step t1969.t33 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule subproof :discharge (t1969.t33.a0 t1969.t33.a1))
% 32.25/32.46 (step t1969.t34 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t1969.t35 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t1969.t36 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule resolution :premises (t1969.t33 t1969.t34 t1969.t35))
% 32.25/32.46 (step t1969.t37 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule reordering :premises (t1969.t36))
% 32.25/32.46 (step t1969.t38 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule contraction :premises (t1969.t37))
% 32.25/32.46 (step t1969.t39 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t1969.t32 t1969.t38))
% 32.25/32.46 (step t1969.t40 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies_neg2)
% 32.25/32.46 (step t1969.t41 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t1969.t39 t1969.t40))
% 32.25/32.46 (step t1969.t42 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t1969.t41))
% 32.25/32.46 (step t1969.t43 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule implies :premises (t1969.t42))
% 32.25/32.46 (step t1969.t44 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule and_neg)
% 32.25/32.46 (step t1969.t45 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule resolution :premises (t1969.t44 t1969.a5 t1969.a3))
% 32.25/32.46 (step t1969.t46 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t1969.t43 t1969.t45))
% 32.25/32.46 (step t1969.t47 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t1969.t48)
% 32.25/32.46 (assume t1969.t48.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.46 (assume t1969.t48.a1 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.46 (step t1969.t48.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t1969.t48.a1))
% 32.25/32.46 (step t1969.t48.t2 (cl (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule symm :premises (t1969.t48.t1))
% 32.25/32.46 (step t1969.t48.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1969.t48.a0))
% 32.25/32.46 (step t1969.t48.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t1969.t48.t3))
% 32.25/32.46 (step t1969.t48.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t1969.t48.t4))
% 32.25/32.46 (step t1969.t48.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.46 (step t1969.t48.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule cong :premises (t1969.t48.t5 t1969.t48.t6))
% 32.25/32.46 (step t1969.t48.t8 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t1969.t48.t2 t1969.t48.t7))
% 32.25/32.46 (step t1969.t48 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule subproof :discharge (t1969.t48.a0 t1969.t48.a1))
% 32.25/32.46 (step t1969.t49 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1969.t50 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1969.t51 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule resolution :premises (t1969.t48 t1969.t49 t1969.t50))
% 32.25/32.46 (step t1969.t52 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule reordering :premises (t1969.t51))
% 32.25/32.46 (step t1969.t53 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule contraction :premises (t1969.t52))
% 32.25/32.46 (step t1969.t54 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t1969.t47 t1969.t53))
% 32.25/32.46 (step t1969.t55 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg2)
% 32.25/32.46 (step t1969.t56 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t1969.t54 t1969.t55))
% 32.25/32.46 (step t1969.t57 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t1969.t56))
% 32.25/32.46 (step t1969.t58 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule implies :premises (t1969.t57))
% 32.25/32.46 (step t1969.t59 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule and_neg)
% 32.25/32.46 (step t1969.t60 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule resolution :premises (t1969.t59 t1969.a1 t1969.a0))
% 32.25/32.46 (step t1969.t61 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t1969.t58 t1969.t60))
% 32.25/32.46 (step t1969.t62 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t1969.t16 t1969.a6 t1969.t31 t1969.t46 t1969.t61 t1969.a2))
% 32.25/32.46 (step t1969.t63 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t1969.t15 t1969.t62))
% 32.25/32.46 (step t1969 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule subproof :discharge (t1969.a0 t1969.a1 t1969.a2 t1969.a3 t1969.a4 t1969.a5 t1969.a6))
% 32.25/32.46 (step t1970 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1971 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t1972 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t1973 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t1974 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t1975 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t1976 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.25/32.46 (step t1977 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t1969 t1970 t1971 t1972 t1973 t1974 t1975 t1976))
% 32.25/32.46 (step t1978 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule reordering :premises (t1977))
% 32.25/32.46 (step t1979 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule contraction :premises (t1978))
% 32.25/32.46 (step t1980 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t1968 t1979))
% 32.25/32.46 (step t1981 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t1982 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t1980 t1981))
% 32.25/32.46 (step t1983 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t1982))
% 32.25/32.46 (step t1984 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies :premises (t1983))
% 32.25/32.46 (step t1985 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t1967 t1984))
% 32.25/32.46 (step t1986 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule or_neg)
% 32.25/32.46 (step t1987 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.46 (step t1988 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t1989 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule or_neg)
% 32.25/32.46 (step t1990 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.25/32.46 (step t1991 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.46 (step t1992 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule or_neg)
% 32.25/32.46 (step t1993 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t1994 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t1985 t1986 t1987 t1988 t1989 t1990 t1991 t1992 t1993))
% 32.25/32.46 (step t1995 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t1994))
% 32.25/32.46 (step t1996 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t1951 t1966 t1995))
% 32.25/32.46 (step t1997 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule or :premises (t1996))
% 32.25/32.46 (step t1998 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule reordering :premises (t1997))
% 32.25/32.46 (step t1999 (cl (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and :premises (t1360))
% 32.25/32.46 (step t2000 (cl (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule and :premises (t1107))
% 32.25/32.46 (step t2001 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t2000))
% 32.25/32.46 (step t2002 (cl (not (= (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (or (= tptp.e10 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))))) (not (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) (or (= tptp.e10 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv_pos2)
% 32.25/32.46 (step t2003 (cl (= (= (= (not (not (= tptp.e10 tptp.e13))) (= tptp.e10 tptp.e13)) true) (= (not (not (= tptp.e10 tptp.e13))) (= tptp.e10 tptp.e13)))) :rule equiv_simplify)
% 32.25/32.46 (step t2004 (cl (not (= (= (not (not (= tptp.e10 tptp.e13))) (= tptp.e10 tptp.e13)) true)) (= (not (not (= tptp.e10 tptp.e13))) (= tptp.e10 tptp.e13))) :rule equiv1 :premises (t2003))
% 32.25/32.46 (step t2005 (cl (= (= (not (not (= tptp.e10 tptp.e13))) (= tptp.e10 tptp.e13)) (= (= tptp.e10 tptp.e13) (not (not (= tptp.e10 tptp.e13)))))) :rule all_simplify)
% 32.25/32.46 (step t2006 (cl (= (= tptp.e10 tptp.e13) (= tptp.e10 tptp.e13))) :rule refl)
% 32.25/32.46 (step t2007 (cl (= (not (not (= tptp.e10 tptp.e13))) (= tptp.e10 tptp.e13))) :rule all_simplify)
% 32.25/32.46 (step t2008 (cl (= (= (= tptp.e10 tptp.e13) (not (not (= tptp.e10 tptp.e13)))) (= (= tptp.e10 tptp.e13) (= tptp.e10 tptp.e13)))) :rule cong :premises (t2006 t2007))
% 32.25/32.46 (step t2009 (cl (= (= (= tptp.e10 tptp.e13) (= tptp.e10 tptp.e13)) true)) :rule all_simplify)
% 32.25/32.46 (step t2010 (cl (= (= (= tptp.e10 tptp.e13) (not (not (= tptp.e10 tptp.e13)))) true)) :rule trans :premises (t2008 t2009))
% 32.25/32.46 (step t2011 (cl (= (= (not (not (= tptp.e10 tptp.e13))) (= tptp.e10 tptp.e13)) true)) :rule trans :premises (t2005 t2010))
% 32.25/32.46 (step t2012 (cl (= (not (not (= tptp.e10 tptp.e13))) (= tptp.e10 tptp.e13))) :rule resolution :premises (t2004 t2011))
% 32.25/32.46 (step t2013 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule refl)
% 32.25/32.46 (step t2014 (cl (= (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (or (= tptp.e10 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))))) :rule cong :premises (t2012 t1111 t1415 t2013))
% 32.25/32.46 (step t2015 (cl (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.25/32.46 (step t2016 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2017)
% 32.25/32.46 (assume t2017.a0 (not (= tptp.e10 tptp.e13)))
% 32.25/32.46 (assume t2017.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.46 (assume t2017.a2 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.46 (step t2017.t1 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2017.t2)
% 32.25/32.46 (assume t2017.t2.a0 (not (= tptp.e10 tptp.e13)))
% 32.25/32.46 (assume t2017.t2.a1 (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))
% 32.25/32.46 (step t2017.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) false) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2017.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) false)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule equiv1 :premises (t2017.t2.t1))
% 32.25/32.46 (step t2017.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.25/32.46 (step t2017.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule symm :premises (t2017.t2.a1))
% 32.25/32.46 (step t2017.t2.t5 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 tptp.e13))) :rule cong :premises (t2017.t2.t3 t2017.t2.t4))
% 32.25/32.46 (step t2017.t2.t6 (cl (= (= (= tptp.e10 tptp.e13) false) (not (= tptp.e10 tptp.e13)))) :rule equiv_simplify)
% 32.25/32.46 (step t2017.t2.t7 (cl (= (= tptp.e10 tptp.e13) false) (not (not (= tptp.e10 tptp.e13)))) :rule equiv2 :premises (t2017.t2.t6))
% 32.25/32.46 (step t2017.t2.t8 (cl (not (not (not (= tptp.e10 tptp.e13)))) (= tptp.e10 tptp.e13)) :rule not_not)
% 32.25/32.46 (step t2017.t2.t9 (cl (= (= tptp.e10 tptp.e13) false) (= tptp.e10 tptp.e13)) :rule resolution :premises (t2017.t2.t7 t2017.t2.t8))
% 32.25/32.46 (step t2017.t2.t10 (cl (= (= tptp.e10 tptp.e13) false)) :rule resolution :premises (t2017.t2.t9 t2017.t2.a0))
% 32.25/32.46 (step t2017.t2.t11 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) false)) :rule trans :premises (t2017.t2.t5 t2017.t2.t10))
% 32.25/32.46 (step t2017.t2.t12 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t2017.t2.t2 t2017.t2.t11))
% 32.25/32.46 (step t2017.t2 (cl (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule subproof :discharge (t2017.t2.a0 t2017.t2.a1))
% 32.25/32.46 (step t2017.t3 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2017.t4 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2017.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t2017.t2 t2017.t3 t2017.t4))
% 32.25/32.46 (step t2017.t6 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule reordering :premises (t2017.t5))
% 32.25/32.46 (step t2017.t7 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t2017.t6))
% 32.25/32.46 (step t2017.t8 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t2017.t1 t2017.t7))
% 32.25/32.46 (step t2017.t9 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2017.t10 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t2017.t8 t2017.t9))
% 32.25/32.46 (step t2017.t11 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule contraction :premises (t2017.t10))
% 32.25/32.46 (step t2017.t12 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies :premises (t2017.t11))
% 32.25/32.46 (step t2017.t13 (cl (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule and_neg)
% 32.25/32.46 (step t2017.t14 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2017.t15)
% 32.25/32.46 (assume t2017.t15.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.46 (assume t2017.t15.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.46 (step t2017.t15.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t2017.t15.a1))
% 32.25/32.46 (step t2017.t15.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t2017.t15.t1))
% 32.25/32.46 (step t2017.t15.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.46 (step t2017.t15.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t2017.t15.a0))
% 32.25/32.46 (step t2017.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op1 tptp.e14 tptp.e11))) :rule cong :premises (t2017.t15.t3 t2017.t15.t4))
% 32.25/32.46 (step t2017.t15.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t2017.t15.t2 t2017.t15.t5))
% 32.25/32.46 (step t2017.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule subproof :discharge (t2017.t15.a0 t2017.t15.a1))
% 32.25/32.46 (step t2017.t16 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2017.t17 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.46 (step t2017.t18 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t2017.t15 t2017.t16 t2017.t17))
% 32.25/32.46 (step t2017.t19 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule reordering :premises (t2017.t18))
% 32.25/32.46 (step t2017.t20 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule contraction :premises (t2017.t19))
% 32.25/32.46 (step t2017.t21 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t2017.t14 t2017.t20))
% 32.25/32.46 (step t2017.t22 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg2)
% 32.25/32.46 (step t2017.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t2017.t21 t2017.t22))
% 32.25/32.46 (step t2017.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t2017.t23))
% 32.25/32.46 (step t2017.t25 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule implies :premises (t2017.t24))
% 32.25/32.46 (step t2017.t26 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.25/32.46 (step t2017.t27 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t2017.t26 t2017.a1 t2017.a2))
% 32.25/32.46 (step t2017.t28 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t2017.t25 t2017.t27))
% 32.25/32.46 (step t2017.t29 (cl (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t2017.t13 t2017.a0 t2017.t28))
% 32.25/32.46 (step t2017.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t2017.t12 t2017.t29))
% 32.25/32.46 (step t2017 (cl (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule subproof :discharge (t2017.a0 t2017.a1 t2017.a2))
% 32.25/32.46 (step t2018 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (= tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2019 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2020 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.46 (step t2021 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t2017 t2018 t2019 t2020))
% 32.25/32.46 (step t2022 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule reordering :premises (t2021))
% 32.25/32.46 (step t2023 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t2022))
% 32.25/32.46 (step t2024 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t2016 t2023))
% 32.25/32.46 (step t2025 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2026 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t2024 t2025))
% 32.25/32.46 (step t2027 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule contraction :premises (t2026))
% 32.25/32.46 (step t2028 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies :premises (t2027))
% 32.25/32.46 (step t2029 (cl (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t2015 t2028))
% 32.25/32.46 (step t2030 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (not (= tptp.e10 tptp.e13))))) :rule or_neg)
% 32.25/32.46 (step t2031 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.46 (step t2032 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.25/32.46 (step t2033 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t2034 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t2029 t2030 t2031 t2032 t2033))
% 32.25/32.46 (step t2035 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule contraction :premises (t2034))
% 32.25/32.46 (step t2036 (cl (or (= tptp.e10 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t2002 t2014 t2035))
% 32.25/32.46 (step t2037 (cl (= tptp.e10 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule or :premises (t2036))
% 32.25/32.46 (step t2038 (cl (= tptp.e10 tptp.e13) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t2037))
% 32.25/32.46 (step t2039 (cl (not (= tptp.e10 tptp.e13))) :rule and :premises (a8))
% 32.25/32.46 (step t2040 (cl (not (= (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))))) (not (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_pos2)
% 32.25/32.46 (step t2041 (cl (= (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2042 (cl (not (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t2041))
% 32.25/32.46 (step t2043 (cl (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))))) :rule all_simplify)
% 32.25/32.46 (step t2044 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) :rule refl)
% 32.25/32.46 (step t2045 (cl (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.46 (step t2046 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t2044 t2045))
% 32.25/32.46 (step t2047 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) true)) :rule all_simplify)
% 32.25/32.46 (step t2048 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) true)) :rule trans :premises (t2046 t2047))
% 32.25/32.46 (step t2049 (cl (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) true)) :rule trans :premises (t2043 t2048))
% 32.25/32.46 (step t2050 (cl (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2042 t2049))
% 32.25/32.46 (step t2051 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule refl)
% 32.25/32.46 (step t2052 (cl (= (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))))) :rule cong :premises (t1954 t1115 t2050 t2051))
% 32.25/32.46 (step t2053 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) :rule and_neg)
% 32.25/32.46 (step t2054 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2055)
% 32.25/32.46 (assume t2055.a0 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.25/32.46 (assume t2055.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2055.a2 (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))
% 32.25/32.46 (step t2055.t1 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2055.t2)
% 32.25/32.46 (assume t2055.t2.a0 (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))
% 32.25/32.46 (assume t2055.t2.a1 (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))
% 32.25/32.46 (step t2055.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) false) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2055.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) false)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t2055.t2.t1))
% 32.25/32.46 (step t2055.t2.t3 (cl (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10)) :rule symm :premises (t2055.t2.a1))
% 32.25/32.46 (step t2055.t2.t4 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule symm :premises (t2055.t2.t3))
% 32.25/32.46 (step t2055.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule refl)
% 32.25/32.46 (step t2055.t2.t6 (cl (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) :rule cong :premises (t2055.t2.t4 t2055.t2.t5))
% 32.25/32.46 (step t2055.t2.t7 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) false) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2055.t2.t8 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv2 :premises (t2055.t2.t7))
% 32.25/32.46 (step t2055.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) :rule not_not)
% 32.25/32.46 (step t2055.t2.t10 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) false) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t2055.t2.t8 t2055.t2.t9))
% 32.25/32.46 (step t2055.t2.t11 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) false)) :rule resolution :premises (t2055.t2.t10 t2055.t2.a0))
% 32.25/32.46 (step t2055.t2.t12 (cl (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) false)) :rule trans :premises (t2055.t2.t6 t2055.t2.t11))
% 32.25/32.46 (step t2055.t2.t13 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2055.t2.t2 t2055.t2.t12))
% 32.25/32.46 (step t2055.t2 (cl (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t2055.t2.a0 t2055.t2.a1))
% 32.25/32.46 (step t2055.t3 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.25/32.46 (step t2055.t4 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule and_pos)
% 32.25/32.46 (step t2055.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t2055.t2 t2055.t3 t2055.t4))
% 32.25/32.46 (step t2055.t6 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t2055.t5))
% 32.25/32.46 (step t2055.t7 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t2055.t6))
% 32.25/32.46 (step t2055.t8 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2055.t1 t2055.t7))
% 32.25/32.46 (step t2055.t9 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2055.t10 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t2055.t8 t2055.t9))
% 32.25/32.46 (step t2055.t11 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t2055.t10))
% 32.25/32.46 (step t2055.t12 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t2055.t11))
% 32.25/32.46 (step t2055.t13 (cl (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule and_neg)
% 32.25/32.46 (step t2055.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2055.t15)
% 32.25/32.46 (assume t2055.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2055.t15.a1 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.25/32.46 (step t2055.t15.t1 (cl (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10)) :rule symm :premises (t2055.t15.a1))
% 32.25/32.46 (step t2055.t15.t2 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule symm :premises (t2055.t15.t1))
% 32.25/32.46 (step t2055.t15.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.25/32.46 (step t2055.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2055.t15.a0))
% 32.25/32.46 (step t2055.t15.t5 (cl (= (tptp.op1 tptp.e10 tptp.unit1) (tptp.op1 tptp.e10 tptp.e12))) :rule cong :premises (t2055.t15.t3 t2055.t15.t4))
% 32.25/32.46 (step t2055.t15.t6 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule trans :premises (t2055.t15.t2 t2055.t15.t5))
% 32.25/32.46 (step t2055.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule subproof :discharge (t2055.t15.a0 t2055.t15.a1))
% 32.25/32.46 (step t2055.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2055.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t2055.t18 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule resolution :premises (t2055.t15 t2055.t16 t2055.t17))
% 32.25/32.46 (step t2055.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule reordering :premises (t2055.t18))
% 32.25/32.46 (step t2055.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule contraction :premises (t2055.t19))
% 32.25/32.46 (step t2055.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t2055.t14 t2055.t20))
% 32.25/32.46 (step t2055.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies_neg2)
% 32.25/32.46 (step t2055.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2055.t21 t2055.t22))
% 32.25/32.46 (step t2055.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t2055.t23))
% 32.25/32.46 (step t2055.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule implies :premises (t2055.t24))
% 32.25/32.46 (step t2055.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule and_neg)
% 32.25/32.46 (step t2055.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule resolution :premises (t2055.t26 t2055.a1 t2055.a0))
% 32.25/32.46 (step t2055.t28 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t2055.t25 t2055.t27))
% 32.25/32.46 (step t2055.t29 (cl (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2055.t13 t2055.a2 t2055.t28))
% 32.25/32.46 (step t2055.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2055.t12 t2055.t29))
% 32.25/32.46 (step t2055 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t2055.a0 t2055.a1 t2055.a2))
% 32.25/32.46 (step t2056 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t2057 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2058 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.25/32.46 (step t2059 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))))) :rule resolution :premises (t2055 t2056 t2057 t2058))
% 32.25/32.46 (step t2060 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t2059))
% 32.25/32.46 (step t2061 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t2060))
% 32.25/32.46 (step t2062 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2054 t2061))
% 32.25/32.46 (step t2063 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2064 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t2062 t2063))
% 32.25/32.46 (step t2065 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t2064))
% 32.25/32.46 (step t2066 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t2065))
% 32.25/32.46 (step t2067 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2053 t2066))
% 32.25/32.46 (step t2068 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule or_neg)
% 32.25/32.46 (step t2069 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.46 (step t2070 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))))) :rule or_neg)
% 32.25/32.46 (step t2071 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t2072 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t2067 t2068 t2069 t2070 t2071))
% 32.25/32.46 (step t2073 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t2072))
% 32.25/32.46 (step t2074 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t2040 t2052 t2073))
% 32.25/32.46 (step t2075 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule or :premises (t2074))
% 32.25/32.46 (step t2076 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2075))
% 32.25/32.46 (step t2077 (cl (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e11)))) :rule and :premises (t1360))
% 32.25/32.46 (step t2078 (cl (not (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))))) (not (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_pos2)
% 32.25/32.46 (step t2079 (cl (= (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2080 (cl (not (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) :rule equiv1 :premises (t2079))
% 32.25/32.46 (step t2081 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))))) :rule all_simplify)
% 32.25/32.46 (step t2082 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) :rule refl)
% 32.25/32.46 (step t2083 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.25/32.46 (step t2084 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t2082 t2083))
% 32.25/32.46 (step t2085 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) true)) :rule all_simplify)
% 32.25/32.46 (step t2086 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) true)) :rule trans :premises (t2084 t2085))
% 32.25/32.46 (step t2087 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) true)) :rule trans :premises (t2081 t2086))
% 32.25/32.46 (step t2088 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t2080 t2087))
% 32.25/32.46 (step t2089 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule refl)
% 32.25/32.46 (step t2090 (cl (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))))) :rule cong :premises (t1952 t1111 t2088 t2089))
% 32.25/32.46 (step t2091 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) :rule and_neg)
% 32.25/32.46 (step t2092 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2093)
% 32.25/32.46 (assume t2093.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.46 (assume t2093.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.46 (assume t2093.a2 (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))
% 32.25/32.46 (step t2093.t1 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2093.t2)
% 32.25/32.46 (assume t2093.t2.a0 (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))
% 32.25/32.46 (assume t2093.t2.a1 (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))
% 32.25/32.46 (step t2093.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) false) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2093.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) false)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule equiv1 :premises (t2093.t2.t1))
% 32.25/32.46 (step t2093.t2.t3 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t2093.t2.a1))
% 32.25/32.46 (step t2093.t2.t4 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule symm :premises (t2093.t2.t3))
% 32.25/32.46 (step t2093.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) :rule refl)
% 32.25/32.46 (step t2093.t2.t6 (cl (= (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) :rule cong :premises (t2093.t2.t4 t2093.t2.t5))
% 32.25/32.46 (step t2093.t2.t7 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) false) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2093.t2.t8 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv2 :premises (t2093.t2.t7))
% 32.25/32.46 (step t2093.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) :rule not_not)
% 32.25/32.46 (step t2093.t2.t10 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) false) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) :rule resolution :premises (t2093.t2.t8 t2093.t2.t9))
% 32.25/32.46 (step t2093.t2.t11 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) false)) :rule resolution :premises (t2093.t2.t10 t2093.t2.a0))
% 32.25/32.46 (step t2093.t2.t12 (cl (= (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) false)) :rule trans :premises (t2093.t2.t6 t2093.t2.t11))
% 32.25/32.46 (step t2093.t2.t13 (cl (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t2093.t2.t2 t2093.t2.t12))
% 32.25/32.46 (step t2093.t2 (cl (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t2093.t2.a0 t2093.t2.a1))
% 32.25/32.46 (step t2093.t3 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) :rule and_pos)
% 32.25/32.46 (step t2093.t4 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2093.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t2093.t2 t2093.t3 t2093.t4))
% 32.25/32.46 (step t2093.t6 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t2093.t5))
% 32.25/32.46 (step t2093.t7 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t2093.t6))
% 32.25/32.46 (step t2093.t8 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t2093.t1 t2093.t7))
% 32.25/32.46 (step t2093.t9 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2093.t10 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t2093.t8 t2093.t9))
% 32.25/32.46 (step t2093.t11 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t2093.t10))
% 32.25/32.46 (step t2093.t12 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t2093.t11))
% 32.25/32.46 (step t2093.t13 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule and_neg)
% 32.25/32.46 (step t2093.t14 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2093.t15)
% 32.25/32.46 (assume t2093.t15.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.46 (assume t2093.t15.a1 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.46 (step t2093.t15.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t2093.t15.a1))
% 32.25/32.46 (step t2093.t15.t2 (cl (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule symm :premises (t2093.t15.t1))
% 32.25/32.46 (step t2093.t15.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t2093.t15.a0))
% 32.25/32.46 (step t2093.t15.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t2093.t15.t3))
% 32.25/32.46 (step t2093.t15.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t2093.t15.t4))
% 32.25/32.46 (step t2093.t15.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.46 (step t2093.t15.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule cong :premises (t2093.t15.t5 t2093.t15.t6))
% 32.25/32.46 (step t2093.t15.t8 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t2093.t15.t2 t2093.t15.t7))
% 32.25/32.46 (step t2093.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule subproof :discharge (t2093.t15.a0 t2093.t15.a1))
% 32.25/32.46 (step t2093.t16 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2093.t17 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2093.t18 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule resolution :premises (t2093.t15 t2093.t16 t2093.t17))
% 32.25/32.46 (step t2093.t19 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule reordering :premises (t2093.t18))
% 32.25/32.46 (step t2093.t20 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule contraction :premises (t2093.t19))
% 32.25/32.46 (step t2093.t21 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t2093.t14 t2093.t20))
% 32.25/32.46 (step t2093.t22 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg2)
% 32.25/32.46 (step t2093.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t2093.t21 t2093.t22))
% 32.25/32.46 (step t2093.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t2093.t23))
% 32.25/32.46 (step t2093.t25 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule implies :premises (t2093.t24))
% 32.25/32.46 (step t2093.t26 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule and_neg)
% 32.25/32.46 (step t2093.t27 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule resolution :premises (t2093.t26 t2093.a1 t2093.a0))
% 32.25/32.46 (step t2093.t28 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t2093.t25 t2093.t27))
% 32.25/32.46 (step t2093.t29 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t2093.t13 t2093.a2 t2093.t28))
% 32.25/32.46 (step t2093.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t2093.t12 t2093.t29))
% 32.25/32.46 (step t2093 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t2093.a0 t2093.a1 t2093.a2))
% 32.25/32.46 (step t2094 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2095 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2096 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) :rule and_pos)
% 32.25/32.46 (step t2097 (cl (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))))) :rule resolution :premises (t2093 t2094 t2095 t2096))
% 32.25/32.46 (step t2098 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t2097))
% 32.25/32.46 (step t2099 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t2098))
% 32.25/32.46 (step t2100 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t2092 t2099))
% 32.25/32.46 (step t2101 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2102 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t2100 t2101))
% 32.25/32.46 (step t2103 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t2102))
% 32.25/32.46 (step t2104 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t2103))
% 32.25/32.46 (step t2105 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t2091 t2104))
% 32.25/32.46 (step t2106 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule or_neg)
% 32.25/32.46 (step t2107 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.46 (step t2108 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))))) :rule or_neg)
% 32.25/32.46 (step t2109 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t2110 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t2105 t2106 t2107 t2108 t2109))
% 32.25/32.46 (step t2111 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t2110))
% 32.25/32.46 (step t2112 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t2078 t2090 t2111))
% 32.25/32.46 (step t2113 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule or :premises (t2112))
% 32.25/32.46 (step t2114 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule reordering :premises (t2113))
% 32.25/32.46 (step t2115 (cl (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e11)))) :rule and :premises (t1360))
% 32.25/32.46 (step t2116 (cl (not (= (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))))) (not (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule equiv_pos2)
% 32.25/32.46 (step t2117 (cl (= (= (= (not (not (= tptp.e10 tptp.e11))) (= tptp.e10 tptp.e11)) true) (= (not (not (= tptp.e10 tptp.e11))) (= tptp.e10 tptp.e11)))) :rule equiv_simplify)
% 32.25/32.46 (step t2118 (cl (not (= (= (not (not (= tptp.e10 tptp.e11))) (= tptp.e10 tptp.e11)) true)) (= (not (not (= tptp.e10 tptp.e11))) (= tptp.e10 tptp.e11))) :rule equiv1 :premises (t2117))
% 32.25/32.46 (step t2119 (cl (= (= (not (not (= tptp.e10 tptp.e11))) (= tptp.e10 tptp.e11)) (= (= tptp.e10 tptp.e11) (not (not (= tptp.e10 tptp.e11)))))) :rule all_simplify)
% 32.25/32.46 (step t2120 (cl (= (= tptp.e10 tptp.e11) (= tptp.e10 tptp.e11))) :rule refl)
% 32.25/32.46 (step t2121 (cl (= (not (not (= tptp.e10 tptp.e11))) (= tptp.e10 tptp.e11))) :rule all_simplify)
% 32.25/32.46 (step t2122 (cl (= (= (= tptp.e10 tptp.e11) (not (not (= tptp.e10 tptp.e11)))) (= (= tptp.e10 tptp.e11) (= tptp.e10 tptp.e11)))) :rule cong :premises (t2120 t2121))
% 32.25/32.46 (step t2123 (cl (= (= (= tptp.e10 tptp.e11) (= tptp.e10 tptp.e11)) true)) :rule all_simplify)
% 32.25/32.46 (step t2124 (cl (= (= (= tptp.e10 tptp.e11) (not (not (= tptp.e10 tptp.e11)))) true)) :rule trans :premises (t2122 t2123))
% 32.25/32.46 (step t2125 (cl (= (= (not (not (= tptp.e10 tptp.e11))) (= tptp.e10 tptp.e11)) true)) :rule trans :premises (t2119 t2124))
% 32.25/32.46 (step t2126 (cl (= (not (not (= tptp.e10 tptp.e11))) (= tptp.e10 tptp.e11))) :rule resolution :premises (t2118 t2125))
% 32.25/32.46 (step t2127 (cl (= (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule refl)
% 32.25/32.46 (step t2128 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule refl)
% 32.25/32.46 (step t2129 (cl (= (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))))) :rule cong :premises (t2126 t2127 t1115 t2128))
% 32.25/32.46 (step t2130 (cl (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.25/32.46 (step t2131 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2132)
% 32.25/32.46 (assume t2132.a0 (not (= tptp.e10 tptp.e11)))
% 32.25/32.46 (assume t2132.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.25/32.46 (assume t2132.a2 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (step t2132.t1 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2132.t2)
% 32.25/32.46 (assume t2132.t2.a0 (not (= tptp.e10 tptp.e11)))
% 32.25/32.46 (assume t2132.t2.a1 (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))
% 32.25/32.46 (step t2132.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) false) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2132.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) false)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule equiv1 :premises (t2132.t2.t1))
% 32.25/32.46 (step t2132.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.25/32.46 (step t2132.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11)) :rule symm :premises (t2132.t2.a1))
% 32.25/32.46 (step t2132.t2.t5 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 tptp.e11))) :rule cong :premises (t2132.t2.t3 t2132.t2.t4))
% 32.25/32.46 (step t2132.t2.t6 (cl (= (= (= tptp.e10 tptp.e11) false) (not (= tptp.e10 tptp.e11)))) :rule equiv_simplify)
% 32.25/32.46 (step t2132.t2.t7 (cl (= (= tptp.e10 tptp.e11) false) (not (not (= tptp.e10 tptp.e11)))) :rule equiv2 :premises (t2132.t2.t6))
% 32.25/32.46 (step t2132.t2.t8 (cl (not (not (not (= tptp.e10 tptp.e11)))) (= tptp.e10 tptp.e11)) :rule not_not)
% 32.25/32.46 (step t2132.t2.t9 (cl (= (= tptp.e10 tptp.e11) false) (= tptp.e10 tptp.e11)) :rule resolution :premises (t2132.t2.t7 t2132.t2.t8))
% 32.25/32.46 (step t2132.t2.t10 (cl (= (= tptp.e10 tptp.e11) false)) :rule resolution :premises (t2132.t2.t9 t2132.t2.a0))
% 32.25/32.46 (step t2132.t2.t11 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) false)) :rule trans :premises (t2132.t2.t5 t2132.t2.t10))
% 32.25/32.46 (step t2132.t2.t12 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2132.t2.t2 t2132.t2.t11))
% 32.25/32.46 (step t2132.t2 (cl (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule subproof :discharge (t2132.t2.a0 t2132.t2.a1))
% 32.25/32.46 (step t2132.t3 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2132.t4 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2132.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t2132.t2 t2132.t3 t2132.t4))
% 32.25/32.46 (step t2132.t6 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule reordering :premises (t2132.t5))
% 32.25/32.46 (step t2132.t7 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule contraction :premises (t2132.t6))
% 32.25/32.46 (step t2132.t8 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2132.t1 t2132.t7))
% 32.25/32.46 (step t2132.t9 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2132.t10 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t2132.t8 t2132.t9))
% 32.25/32.46 (step t2132.t11 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule contraction :premises (t2132.t10))
% 32.25/32.46 (step t2132.t12 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies :premises (t2132.t11))
% 32.25/32.46 (step t2132.t13 (cl (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule and_neg)
% 32.25/32.46 (step t2132.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2132.t15)
% 32.25/32.46 (assume t2132.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2132.t15.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.25/32.46 (step t2132.t15.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11)) :rule symm :premises (t2132.t15.a1))
% 32.25/32.46 (step t2132.t15.t2 (cl (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule symm :premises (t2132.t15.t1))
% 32.25/32.46 (step t2132.t15.t3 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2132.t15.a0))
% 32.25/32.46 (step t2132.t15.t4 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.25/32.46 (step t2132.t15.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) :rule cong :premises (t2132.t15.t3 t2132.t15.t4))
% 32.25/32.46 (step t2132.t15.t6 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule trans :premises (t2132.t15.t2 t2132.t15.t5))
% 32.25/32.46 (step t2132.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule subproof :discharge (t2132.t15.a0 t2132.t15.a1))
% 32.25/32.46 (step t2132.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2132.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2132.t18 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule resolution :premises (t2132.t15 t2132.t16 t2132.t17))
% 32.25/32.46 (step t2132.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule reordering :premises (t2132.t18))
% 32.25/32.46 (step t2132.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule contraction :premises (t2132.t19))
% 32.25/32.46 (step t2132.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule resolution :premises (t2132.t14 t2132.t20))
% 32.25/32.46 (step t2132.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg2)
% 32.25/32.46 (step t2132.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2132.t21 t2132.t22))
% 32.25/32.46 (step t2132.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule contraction :premises (t2132.t23))
% 32.25/32.46 (step t2132.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule implies :premises (t2132.t24))
% 32.25/32.46 (step t2132.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule and_neg)
% 32.25/32.46 (step t2132.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule resolution :premises (t2132.t26 t2132.a2 t2132.a1))
% 32.25/32.46 (step t2132.t28 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule resolution :premises (t2132.t25 t2132.t27))
% 32.25/32.46 (step t2132.t29 (cl (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2132.t13 t2132.a0 t2132.t28))
% 32.25/32.46 (step t2132.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2132.t12 t2132.t29))
% 32.25/32.46 (step t2132 (cl (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule subproof :discharge (t2132.a0 t2132.a1 t2132.a2))
% 32.25/32.46 (step t2133 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2134 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2135 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2136 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t2132 t2133 t2134 t2135))
% 32.25/32.46 (step t2137 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule reordering :premises (t2136))
% 32.25/32.46 (step t2138 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule contraction :premises (t2137))
% 32.25/32.46 (step t2139 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2131 t2138))
% 32.25/32.46 (step t2140 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2141 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t2139 t2140))
% 32.25/32.46 (step t2142 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule contraction :premises (t2141))
% 32.25/32.46 (step t2143 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies :premises (t2142))
% 32.25/32.46 (step t2144 (cl (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2130 t2143))
% 32.25/32.46 (step t2145 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (not (= tptp.e10 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t2146 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t2147 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.46 (step t2148 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t2149 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t2144 t2145 t2146 t2147 t2148))
% 32.25/32.46 (step t2150 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule contraction :premises (t2149))
% 32.25/32.46 (step t2151 (cl (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t2116 t2129 t2150))
% 32.25/32.46 (step t2152 (cl (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule or :premises (t2151))
% 32.25/32.46 (step t2153 (cl (= tptp.e10 tptp.e11) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2152))
% 32.25/32.46 (step t2154 (cl (not (= tptp.e10 tptp.e11))) :rule and :premises (a8))
% 32.25/32.46 (step t2155 (cl (not (= (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))))) (not (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.46 (step t2156 (cl (= (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))))) :rule refl)
% 32.25/32.46 (step t2157 (cl (= (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.46 (step t2158 (cl (not (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) :rule equiv1 :premises (t2157))
% 32.25/32.46 (step t2159 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))))) :rule all_simplify)
% 32.25/32.46 (step t2160 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) :rule refl)
% 32.25/32.46 (step t2161 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.46 (step t2162 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t2160 t2161))
% 32.25/32.46 (step t2163 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.46 (step t2164 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) true)) :rule trans :premises (t2162 t2163))
% 32.25/32.46 (step t2165 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) true)) :rule trans :premises (t2159 t2164))
% 32.25/32.46 (step t2166 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2158 t2165))
% 32.25/32.46 (step t2167 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule refl)
% 32.25/32.46 (step t2168 (cl (= (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))))) :rule cong :premises (t2156 t1115 t2166 t2167))
% 32.25/32.46 (step t2169 (cl (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) :rule and_neg)
% 32.25/32.46 (step t2170 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2171)
% 32.25/32.46 (assume t2171.a0 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.25/32.46 (assume t2171.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2171.a2 (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))
% 32.25/32.46 (step t2171.t1 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2171.t2)
% 32.25/32.46 (assume t2171.t2.a0 (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))
% 32.25/32.46 (assume t2171.t2.a1 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))
% 32.25/32.46 (step t2171.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) false) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.46 (step t2171.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) false)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule equiv1 :premises (t2171.t2.t1))
% 32.25/32.46 (step t2171.t2.t3 (cl (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) :rule symm :premises (t2171.t2.a1))
% 32.25/32.46 (step t2171.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule symm :premises (t2171.t2.t3))
% 32.25/32.46 (step t2171.t2.t5 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) :rule refl)
% 32.25/32.46 (step t2171.t2.t6 (cl (= (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) :rule cong :premises (t2171.t2.t4 t2171.t2.t5))
% 32.25/32.46 (step t2171.t2.t7 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) false) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.46 (step t2171.t2.t8 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv2 :premises (t2171.t2.t7))
% 32.25/32.46 (step t2171.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) :rule not_not)
% 32.25/32.46 (step t2171.t2.t10 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) false) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t2171.t2.t8 t2171.t2.t9))
% 32.25/32.46 (step t2171.t2.t11 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) false)) :rule resolution :premises (t2171.t2.t10 t2171.t2.a0))
% 32.25/32.46 (step t2171.t2.t12 (cl (= (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)) false)) :rule trans :premises (t2171.t2.t6 t2171.t2.t11))
% 32.25/32.46 (step t2171.t2.t13 (cl (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2171.t2.t2 t2171.t2.t12))
% 32.25/32.46 (step t2171.t2 (cl (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule subproof :discharge (t2171.t2.a0 t2171.t2.a1))
% 32.25/32.46 (step t2171.t3 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) :rule and_pos)
% 32.25/32.46 (step t2171.t4 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2171.t5 (cl (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t2171.t2 t2171.t3 t2171.t4))
% 32.25/32.46 (step t2171.t6 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule reordering :premises (t2171.t5))
% 32.25/32.46 (step t2171.t7 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t2171.t6))
% 32.25/32.46 (step t2171.t8 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2171.t1 t2171.t7))
% 32.25/32.46 (step t2171.t9 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg2)
% 32.25/32.46 (step t2171.t10 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t2171.t8 t2171.t9))
% 32.25/32.46 (step t2171.t11 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t2171.t10))
% 32.25/32.46 (step t2171.t12 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies :premises (t2171.t11))
% 32.25/32.46 (step t2171.t13 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule and_neg)
% 32.25/32.46 (step t2171.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2171.t15)
% 32.25/32.46 (assume t2171.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2171.t15.a1 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.25/32.46 (step t2171.t15.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14)) :rule symm :premises (t2171.t15.a1))
% 32.25/32.46 (step t2171.t15.t2 (cl (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule symm :premises (t2171.t15.t1))
% 32.25/32.46 (step t2171.t15.t3 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2171.t15.a0))
% 32.25/32.46 (step t2171.t15.t4 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.46 (step t2171.t15.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) :rule cong :premises (t2171.t15.t3 t2171.t15.t4))
% 32.25/32.46 (step t2171.t15.t6 (cl (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule trans :premises (t2171.t15.t2 t2171.t15.t5))
% 32.25/32.46 (step t2171.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule subproof :discharge (t2171.t15.a0 t2171.t15.a1))
% 32.25/32.46 (step t2171.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2171.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2171.t18 (cl (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))))) :rule resolution :premises (t2171.t15 t2171.t16 t2171.t17))
% 32.25/32.46 (step t2171.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule reordering :premises (t2171.t18))
% 32.25/32.46 (step t2171.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule contraction :premises (t2171.t19))
% 32.25/32.46 (step t2171.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule resolution :premises (t2171.t14 t2171.t20))
% 32.25/32.46 (step t2171.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies_neg2)
% 32.25/32.46 (step t2171.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t2171.t21 t2171.t22))
% 32.25/32.46 (step t2171.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule contraction :premises (t2171.t23))
% 32.25/32.46 (step t2171.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule implies :premises (t2171.t24))
% 32.25/32.46 (step t2171.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule and_neg)
% 32.25/32.46 (step t2171.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule resolution :premises (t2171.t26 t2171.a1 t2171.a0))
% 32.25/32.46 (step t2171.t28 (cl (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule resolution :premises (t2171.t25 t2171.t27))
% 32.25/32.46 (step t2171.t29 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t2171.t13 t2171.a2 t2171.t28))
% 32.25/32.46 (step t2171.t30 (cl (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2171.t12 t2171.t29))
% 32.25/32.46 (step t2171 (cl (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule subproof :discharge (t2171.a0 t2171.a1 t2171.a2))
% 32.25/32.46 (step t2172 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2173 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2174 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) :rule and_pos)
% 32.25/32.46 (step t2175 (cl (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))))) :rule resolution :premises (t2171 t2172 t2173 t2174))
% 32.25/32.46 (step t2176 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule reordering :premises (t2175))
% 32.25/32.46 (step t2177 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t2176))
% 32.25/32.46 (step t2178 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2170 t2177))
% 32.25/32.46 (step t2179 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg2)
% 32.25/32.46 (step t2180 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t2178 t2179))
% 32.25/32.46 (step t2181 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t2180))
% 32.25/32.46 (step t2182 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies :premises (t2181))
% 32.25/32.46 (step t2183 (cl (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2169 t2182))
% 32.25/32.46 (step t2184 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))))) :rule or_neg)
% 32.25/32.46 (step t2185 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.46 (step t2186 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))))) :rule or_neg)
% 32.25/32.46 (step t2187 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule or_neg)
% 32.25/32.46 (step t2188 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t2183 t2184 t2185 t2186 t2187))
% 32.25/32.46 (step t2189 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t2188))
% 32.25/32.46 (step t2190 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t2155 t2168 t2189))
% 32.25/32.46 (step t2191 (cl (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10)))) :rule or :premises (t2190))
% 32.25/32.46 (step t2192 (cl (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2191))
% 32.25/32.46 (step t2193 (cl (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and :premises (t1380))
% 32.25/32.46 (step t2194 (cl (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e12 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.46 (step t2195 (cl (not (= (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))))) (not (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.46 (step t2196 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.46 (step t2197 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) :rule equiv1 :premises (t2196))
% 32.25/32.46 (step t2198 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))))) :rule all_simplify)
% 32.25/32.46 (step t2199 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) :rule refl)
% 32.25/32.46 (step t2200 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) :rule all_simplify)
% 32.25/32.46 (step t2201 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t2199 t2200))
% 32.25/32.46 (step t2202 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.46 (step t2203 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) true)) :rule trans :premises (t2201 t2202))
% 32.25/32.46 (step t2204 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) true)) :rule trans :premises (t2198 t2203))
% 32.25/32.46 (step t2205 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t2197 t2204))
% 32.25/32.46 (step t2206 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule refl)
% 32.25/32.46 (step t2207 (cl (= (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))))) :rule cong :premises (t1114 t1115 t2205 t2206))
% 32.25/32.46 (step t2208 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) :rule and_neg)
% 32.25/32.46 (step t2209 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2210)
% 32.25/32.46 (assume t2210.a0 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.46 (assume t2210.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2210.a2 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))
% 32.25/32.46 (step t2210.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2210.t2)
% 32.25/32.46 (assume t2210.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))
% 32.25/32.46 (assume t2210.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))
% 32.25/32.46 (step t2210.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) false) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.46 (step t2210.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) false)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule equiv1 :premises (t2210.t2.t1))
% 32.25/32.46 (step t2210.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule symm :premises (t2210.t2.a1))
% 32.25/32.46 (step t2210.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t2210.t2.t3))
% 32.25/32.46 (step t2210.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.e10))) :rule refl)
% 32.25/32.46 (step t2210.t2.t6 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) :rule cong :premises (t2210.t2.t4 t2210.t2.t5))
% 32.25/32.46 (step t2210.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.46 (step t2210.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv2 :premises (t2210.t2.t7))
% 32.25/32.46 (step t2210.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) :rule not_not)
% 32.25/32.46 (step t2210.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t2210.t2.t8 t2210.t2.t9))
% 32.25/32.46 (step t2210.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) false)) :rule resolution :premises (t2210.t2.t10 t2210.t2.a0))
% 32.25/32.46 (step t2210.t2.t12 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) false)) :rule trans :premises (t2210.t2.t6 t2210.t2.t11))
% 32.25/32.46 (step t2210.t2.t13 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t2210.t2.t2 t2210.t2.t12))
% 32.25/32.46 (step t2210.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule subproof :discharge (t2210.t2.a0 t2210.t2.a1))
% 32.25/32.46 (step t2210.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) :rule and_pos)
% 32.25/32.46 (step t2210.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.25/32.46 (step t2210.t5 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t2210.t2 t2210.t3 t2210.t4))
% 32.25/32.46 (step t2210.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule reordering :premises (t2210.t5))
% 32.25/32.46 (step t2210.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t2210.t6))
% 32.25/32.46 (step t2210.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t2210.t1 t2210.t7))
% 32.25/32.46 (step t2210.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg2)
% 32.25/32.46 (step t2210.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t2210.t8 t2210.t9))
% 32.25/32.46 (step t2210.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t2210.t10))
% 32.25/32.46 (step t2210.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies :premises (t2210.t11))
% 32.25/32.46 (step t2210.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule and_neg)
% 32.25/32.46 (step t2210.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2210.t15)
% 32.25/32.46 (assume t2210.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2210.t15.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.46 (step t2210.t15.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t2210.t15.a1))
% 32.25/32.46 (step t2210.t15.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t2210.t15.t1))
% 32.25/32.46 (step t2210.t15.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.46 (step t2210.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2210.t15.a0))
% 32.25/32.46 (step t2210.t15.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e12))) :rule cong :premises (t2210.t15.t3 t2210.t15.t4))
% 32.25/32.46 (step t2210.t15.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t2210.t15.t2 t2210.t15.t5))
% 32.25/32.46 (step t2210.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule subproof :discharge (t2210.t15.a0 t2210.t15.a1))
% 32.25/32.46 (step t2210.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2210.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t2210.t18 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t2210.t15 t2210.t16 t2210.t17))
% 32.25/32.46 (step t2210.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule reordering :premises (t2210.t18))
% 32.25/32.46 (step t2210.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t2210.t19))
% 32.25/32.46 (step t2210.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t2210.t14 t2210.t20))
% 32.25/32.46 (step t2210.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg2)
% 32.25/32.46 (step t2210.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t2210.t21 t2210.t22))
% 32.25/32.46 (step t2210.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t2210.t23))
% 32.25/32.46 (step t2210.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule implies :premises (t2210.t24))
% 32.25/32.46 (step t2210.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.25/32.46 (step t2210.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t2210.t26 t2210.a1 t2210.a0))
% 32.25/32.46 (step t2210.t28 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t2210.t25 t2210.t27))
% 32.25/32.46 (step t2210.t29 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t2210.t13 t2210.a2 t2210.t28))
% 32.25/32.46 (step t2210.t30 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t2210.t12 t2210.t29))
% 32.25/32.46 (step t2210 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule subproof :discharge (t2210.a0 t2210.a1 t2210.a2))
% 32.25/32.46 (step t2211 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t2212 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2213 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) :rule and_pos)
% 32.25/32.46 (step t2214 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))))) :rule resolution :premises (t2210 t2211 t2212 t2213))
% 32.25/32.46 (step t2215 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule reordering :premises (t2214))
% 32.25/32.46 (step t2216 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t2215))
% 32.25/32.46 (step t2217 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t2209 t2216))
% 32.25/32.46 (step t2218 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg2)
% 32.25/32.46 (step t2219 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t2217 t2218))
% 32.25/32.46 (step t2220 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t2219))
% 32.25/32.46 (step t2221 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies :premises (t2220))
% 32.25/32.46 (step t2222 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t2208 t2221))
% 32.25/32.46 (step t2223 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.25/32.46 (step t2224 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.46 (step t2225 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))))) :rule or_neg)
% 32.25/32.46 (step t2226 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule or_neg)
% 32.25/32.46 (step t2227 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t2222 t2223 t2224 t2225 t2226))
% 32.25/32.46 (step t2228 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t2227))
% 32.25/32.46 (step t2229 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t2195 t2207 t2228))
% 32.25/32.46 (step t2230 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule or :premises (t2229))
% 32.25/32.46 (step t2231 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2230))
% 32.25/32.46 (step t2232 (cl (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.46 (step t2233 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_pos2)
% 32.25/32.46 (step t2234 (cl (= (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2235 (cl (not (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t2234))
% 32.25/32.46 (step t2236 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))))) :rule all_simplify)
% 32.25/32.46 (step t2237 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule refl)
% 32.25/32.46 (step t2238 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.46 (step t2239 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t2237 t2238))
% 32.25/32.46 (step t2240 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true)) :rule all_simplify)
% 32.25/32.46 (step t2241 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) true)) :rule trans :premises (t2239 t2240))
% 32.25/32.46 (step t2242 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true)) :rule trans :premises (t2236 t2241))
% 32.25/32.46 (step t2243 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2235 t2242))
% 32.25/32.46 (step t2244 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule refl)
% 32.25/32.46 (step t2245 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))))) :rule cong :premises (t2127 t1115 t2243 t2244))
% 32.25/32.46 (step t2246 (cl (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule and_neg)
% 32.25/32.46 (step t2247 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2248)
% 32.25/32.46 (assume t2248.a0 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.25/32.46 (assume t2248.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2248.a2 (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))
% 32.25/32.46 (step t2248.t1 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2248.t2)
% 32.25/32.46 (assume t2248.t2.a0 (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))
% 32.25/32.46 (assume t2248.t2.a1 (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))
% 32.25/32.46 (step t2248.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) false) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2248.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) false)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t2248.t2.t1))
% 32.25/32.46 (step t2248.t2.t3 (cl (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11)) :rule symm :premises (t2248.t2.a1))
% 32.25/32.46 (step t2248.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule symm :premises (t2248.t2.t3))
% 32.25/32.46 (step t2248.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule refl)
% 32.25/32.46 (step t2248.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule cong :premises (t2248.t2.t4 t2248.t2.t5))
% 32.25/32.46 (step t2248.t2.t7 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.46 (step t2248.t2.t8 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv2 :premises (t2248.t2.t7))
% 32.25/32.46 (step t2248.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule not_not)
% 32.25/32.46 (step t2248.t2.t10 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t2248.t2.t8 t2248.t2.t9))
% 32.25/32.46 (step t2248.t2.t11 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false)) :rule resolution :premises (t2248.t2.t10 t2248.t2.a0))
% 32.25/32.46 (step t2248.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) false)) :rule trans :premises (t2248.t2.t6 t2248.t2.t11))
% 32.25/32.46 (step t2248.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2248.t2.t2 t2248.t2.t12))
% 32.25/32.46 (step t2248.t2 (cl (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t2248.t2.a0 t2248.t2.a1))
% 32.25/32.46 (step t2248.t3 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.25/32.46 (step t2248.t4 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2248.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t2248.t2 t2248.t3 t2248.t4))
% 32.25/32.46 (step t2248.t6 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t2248.t5))
% 32.25/32.46 (step t2248.t7 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t2248.t6))
% 32.25/32.46 (step t2248.t8 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2248.t1 t2248.t7))
% 32.25/32.46 (step t2248.t9 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2248.t10 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t2248.t8 t2248.t9))
% 32.25/32.46 (step t2248.t11 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t2248.t10))
% 32.25/32.46 (step t2248.t12 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t2248.t11))
% 32.25/32.46 (step t2248.t13 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule and_neg)
% 32.25/32.46 (step t2248.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2248.t15)
% 32.25/32.46 (assume t2248.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2248.t15.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.25/32.46 (step t2248.t15.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11)) :rule symm :premises (t2248.t15.a1))
% 32.25/32.46 (step t2248.t15.t2 (cl (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule symm :premises (t2248.t15.t1))
% 32.25/32.46 (step t2248.t15.t3 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2248.t15.a0))
% 32.25/32.46 (step t2248.t15.t4 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.25/32.46 (step t2248.t15.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) :rule cong :premises (t2248.t15.t3 t2248.t15.t4))
% 32.25/32.46 (step t2248.t15.t6 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule trans :premises (t2248.t15.t2 t2248.t15.t5))
% 32.25/32.46 (step t2248.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule subproof :discharge (t2248.t15.a0 t2248.t15.a1))
% 32.25/32.46 (step t2248.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2248.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2248.t18 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule resolution :premises (t2248.t15 t2248.t16 t2248.t17))
% 32.25/32.46 (step t2248.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule reordering :premises (t2248.t18))
% 32.25/32.46 (step t2248.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule contraction :premises (t2248.t19))
% 32.25/32.46 (step t2248.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule resolution :premises (t2248.t14 t2248.t20))
% 32.25/32.46 (step t2248.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg2)
% 32.25/32.46 (step t2248.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2248.t21 t2248.t22))
% 32.25/32.46 (step t2248.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule contraction :premises (t2248.t23))
% 32.25/32.46 (step t2248.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule implies :premises (t2248.t24))
% 32.25/32.46 (step t2248.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule and_neg)
% 32.25/32.46 (step t2248.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule resolution :premises (t2248.t26 t2248.a1 t2248.a0))
% 32.25/32.46 (step t2248.t28 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule resolution :premises (t2248.t25 t2248.t27))
% 32.25/32.46 (step t2248.t29 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2248.t13 t2248.a2 t2248.t28))
% 32.25/32.46 (step t2248.t30 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2248.t12 t2248.t29))
% 32.25/32.46 (step t2248 (cl (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t2248.a0 t2248.a1 t2248.a2))
% 32.25/32.46 (step t2249 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2250 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2251 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.25/32.46 (step t2252 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))))) :rule resolution :premises (t2248 t2249 t2250 t2251))
% 32.25/32.46 (step t2253 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t2252))
% 32.25/32.46 (step t2254 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t2253))
% 32.25/32.46 (step t2255 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2247 t2254))
% 32.25/32.46 (step t2256 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.25/32.46 (step t2257 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t2255 t2256))
% 32.25/32.46 (step t2258 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t2257))
% 32.25/32.46 (step t2259 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t2258))
% 32.25/32.46 (step t2260 (cl (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t2246 t2259))
% 32.25/32.46 (step t2261 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t2262 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.46 (step t2263 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))))) :rule or_neg)
% 32.25/32.46 (step t2264 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule or_neg)
% 32.25/32.46 (step t2265 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t2260 t2261 t2262 t2263 t2264))
% 32.25/32.46 (step t2266 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t2265))
% 32.25/32.46 (step t2267 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t2233 t2245 t2266))
% 32.25/32.46 (step t2268 (cl (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule or :premises (t2267))
% 32.25/32.46 (step t2269 (cl (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2268))
% 32.25/32.46 (step t2270 (cl (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule and :premises (t1360))
% 32.25/32.46 (step t2271 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_pos2)
% 32.25/32.46 (step t2272 (cl (= (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.46 (step t2273 (cl (not (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv1 :premises (t2272))
% 32.25/32.46 (step t2274 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) :rule all_simplify)
% 32.25/32.46 (step t2275 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule refl)
% 32.25/32.46 (step t2276 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.25/32.46 (step t2277 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t2275 t2276))
% 32.25/32.46 (step t2278 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true)) :rule all_simplify)
% 32.25/32.46 (step t2279 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) true)) :rule trans :premises (t2277 t2278))
% 32.25/32.46 (step t2280 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true)) :rule trans :premises (t2274 t2279))
% 32.25/32.46 (step t2281 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2273 t2280))
% 32.25/32.46 (step t2282 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule refl)
% 32.25/32.46 (step t2283 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))))) :rule cong :premises (t1113 t1115 t2281 t2282))
% 32.25/32.46 (step t2284 (cl (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule and_neg)
% 32.25/32.46 (step t2285 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2286)
% 32.25/32.46 (assume t2286.a0 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.25/32.46 (assume t2286.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2286.a2 (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.25/32.46 (step t2286.t1 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2286.t2)
% 32.25/32.46 (assume t2286.t2.a0 (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.25/32.46 (assume t2286.t2.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))
% 32.25/32.46 (step t2286.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) false) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.46 (step t2286.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) false)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv1 :premises (t2286.t2.t1))
% 32.25/32.46 (step t2286.t2.t3 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) :rule symm :premises (t2286.t2.a1))
% 32.25/32.46 (step t2286.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t2286.t2.t3))
% 32.25/32.46 (step t2286.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule refl)
% 32.25/32.46 (step t2286.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule cong :premises (t2286.t2.t4 t2286.t2.t5))
% 32.25/32.46 (step t2286.t2.t7 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.46 (step t2286.t2.t8 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv2 :premises (t2286.t2.t7))
% 32.25/32.46 (step t2286.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule not_not)
% 32.25/32.46 (step t2286.t2.t10 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t2286.t2.t8 t2286.t2.t9))
% 32.25/32.46 (step t2286.t2.t11 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false)) :rule resolution :premises (t2286.t2.t10 t2286.t2.a0))
% 32.25/32.46 (step t2286.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) false)) :rule trans :premises (t2286.t2.t6 t2286.t2.t11))
% 32.25/32.46 (step t2286.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2286.t2.t2 t2286.t2.t12))
% 32.25/32.46 (step t2286.t2 (cl (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule subproof :discharge (t2286.t2.a0 t2286.t2.a1))
% 32.25/32.46 (step t2286.t3 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.25/32.46 (step t2286.t4 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.25/32.46 (step t2286.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t2286.t2 t2286.t3 t2286.t4))
% 32.25/32.46 (step t2286.t6 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule reordering :premises (t2286.t5))
% 32.25/32.46 (step t2286.t7 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t2286.t6))
% 32.25/32.46 (step t2286.t8 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2286.t1 t2286.t7))
% 32.25/32.46 (step t2286.t9 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg2)
% 32.25/32.46 (step t2286.t10 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t2286.t8 t2286.t9))
% 32.25/32.46 (step t2286.t11 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t2286.t10))
% 32.25/32.46 (step t2286.t12 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies :premises (t2286.t11))
% 32.25/32.46 (step t2286.t13 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule and_neg)
% 32.25/32.46 (step t2286.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2286.t15)
% 32.25/32.46 (assume t2286.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.46 (assume t2286.t15.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.25/32.46 (step t2286.t15.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t2286.t15.a1))
% 32.25/32.46 (step t2286.t15.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t2286.t15.t1))
% 32.25/32.46 (step t2286.t15.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.25/32.46 (step t2286.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2286.t15.a0))
% 32.25/32.46 (step t2286.t15.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e12))) :rule cong :premises (t2286.t15.t3 t2286.t15.t4))
% 32.25/32.46 (step t2286.t15.t6 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t2286.t15.t2 t2286.t15.t5))
% 32.25/32.46 (step t2286.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule subproof :discharge (t2286.t15.a0 t2286.t15.a1))
% 32.25/32.46 (step t2286.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2286.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t2286.t18 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t2286.t15 t2286.t16 t2286.t17))
% 32.25/32.46 (step t2286.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule reordering :premises (t2286.t18))
% 32.25/32.46 (step t2286.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule contraction :premises (t2286.t19))
% 32.25/32.46 (step t2286.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t2286.t14 t2286.t20))
% 32.25/32.46 (step t2286.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg2)
% 32.25/32.46 (step t2286.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t2286.t21 t2286.t22))
% 32.25/32.46 (step t2286.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t2286.t23))
% 32.25/32.46 (step t2286.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule implies :premises (t2286.t24))
% 32.25/32.46 (step t2286.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.25/32.46 (step t2286.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t2286.t26 t2286.a1 t2286.a0))
% 32.25/32.46 (step t2286.t28 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t2286.t25 t2286.t27))
% 32.25/32.46 (step t2286.t29 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t2286.t13 t2286.a2 t2286.t28))
% 32.25/32.46 (step t2286.t30 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2286.t12 t2286.t29))
% 32.25/32.46 (step t2286 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule subproof :discharge (t2286.a0 t2286.a1 t2286.a2))
% 32.25/32.46 (step t2287 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.25/32.46 (step t2288 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.46 (step t2289 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.25/32.46 (step t2290 (cl (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t2286 t2287 t2288 t2289))
% 32.25/32.46 (step t2291 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule reordering :premises (t2290))
% 32.25/32.46 (step t2292 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t2291))
% 32.25/32.46 (step t2293 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2285 t2292))
% 32.25/32.46 (step t2294 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg2)
% 32.25/32.46 (step t2295 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t2293 t2294))
% 32.25/32.46 (step t2296 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t2295))
% 32.25/32.46 (step t2297 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies :premises (t2296))
% 32.25/32.46 (step t2298 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2284 t2297))
% 32.25/32.46 (step t2299 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.25/32.46 (step t2300 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.46 (step t2301 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule or_neg)
% 32.25/32.46 (step t2302 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule or_neg)
% 32.25/32.46 (step t2303 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t2298 t2299 t2300 t2301 t2302))
% 32.25/32.46 (step t2304 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t2303))
% 32.25/32.46 (step t2305 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t2271 t2283 t2304))
% 32.25/32.46 (step t2306 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)))) :rule or :premises (t2305))
% 32.25/32.46 (step t2307 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2306))
% 32.25/32.46 (step t2308 (cl (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and :premises (t1360))
% 32.25/32.46 (step t2309 (cl (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1))) :rule resolution :premises (t1860 t1893 t767 t1361 t1381 t1382 t1932 t798 t1950 t1998 t1999 t2001 t2038 t2039 t2076 t2077 t2114 t2115 t2153 t2154 t2192 t2193 t2194 t2231 t2232 t2269 t2270 t2307 t1382 t2308))
% 32.25/32.46 (step t2310 (cl (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule contraction :premises (t2309))
% 32.25/32.46 (step t2311 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and :premises (t1380))
% 32.25/32.46 (step t2312 (cl (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and :premises (t1380))
% 32.25/32.46 (step t2313 (cl (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 tptp.unit1))) :rule resolution :premises (t2310 t799 t2311 t767 t768 t1381 t2312))
% 32.25/32.46 (step t2314 (cl (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule reordering :premises (t2313))
% 32.25/32.46 (step t2315 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule resolution :premises (t1535 t2314))
% 32.25/32.46 (step t2316 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule contraction :premises (t2315))
% 32.25/32.46 (step t2317 (cl (not (= (and (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (and (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) (not (and (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (and (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule equiv_pos2)
% 32.25/32.46 (step t2318 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t67 t73 t79 t85 t91))
% 32.25/32.46 (step t2319 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t67 t97 t127 t157 t187))
% 32.25/32.46 (step t2320 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t68 t74 t80 t86 t92))
% 32.25/32.46 (step t2321 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t68 t98 t128 t158 t188))
% 32.25/32.46 (step t2322 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t69 t75 t81 t87 t93))
% 32.25/32.46 (step t2323 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t69 t99 t129 t159 t189))
% 32.25/32.46 (step t2324 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t70 t76 t82 t88 t94))
% 32.25/32.46 (step t2325 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t70 t100 t130 t160 t190))
% 32.25/32.46 (step t2326 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t71 t77 t83 t89 t95))
% 32.25/32.46 (step t2327 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t71 t101 t131 t161 t191))
% 32.25/32.46 (step t2328 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t97 t103 t109 t115 t121))
% 32.25/32.46 (step t2329 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule cong :premises (t73 t103 t133 t163 t193))
% 32.25/32.46 (step t2330 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t98 t104 t110 t116 t122))
% 32.25/32.46 (step t2331 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21))))) :rule cong :premises (t74 t104 t134 t164 t194))
% 32.25/32.46 (step t2332 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t99 t105 t111 t117 t123))
% 32.25/32.46 (step t2333 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21))))) :rule cong :premises (t75 t105 t135 t165 t195))
% 32.25/32.46 (step t2334 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t100 t106 t112 t118 t124))
% 32.25/32.46 (step t2335 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))))) :rule cong :premises (t76 t106 t136 t166 t196))
% 32.25/32.46 (step t2336 (cl (= (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t101 t107 t113 t119 t125))
% 32.25/32.46 (step t2337 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))))) :rule cong :premises (t77 t107 t137 t167 t197))
% 32.25/32.46 (step t2338 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t127 t133 t139 t145 t151))
% 32.25/32.46 (step t2339 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule cong :premises (t79 t109 t139 t169 t199))
% 32.25/32.46 (step t2340 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t128 t134 t140 t146 t152))
% 32.25/32.46 (step t2341 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22))))) :rule cong :premises (t80 t110 t140 t170 t200))
% 32.25/32.46 (step t2342 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t129 t135 t141 t147 t153))
% 32.25/32.46 (step t2343 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22))))) :rule cong :premises (t81 t111 t141 t171 t201))
% 32.25/32.46 (step t2344 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t130 t136 t142 t148 t154))
% 32.25/32.46 (step t2345 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22))))) :rule cong :premises (t82 t112 t142 t172 t202))
% 32.25/32.46 (step t2346 (cl (= (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t131 t137 t143 t149 t155))
% 32.25/32.46 (step t2347 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))))) :rule cong :premises (t83 t113 t143 t173 t203))
% 32.25/32.46 (step t2348 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24))))) :rule cong :premises (t157 t163 t169 t175 t181))
% 32.25/32.46 (step t2349 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))))) :rule cong :premises (t85 t115 t145 t175 t205))
% 32.25/32.46 (step t2350 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule cong :premises (t158 t164 t170 t176 t182))
% 32.25/32.46 (step t2351 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23))))) :rule cong :premises (t86 t116 t146 t176 t206))
% 32.25/32.46 (step t2352 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))))) :rule cong :premises (t159 t165 t171 t177 t183))
% 32.25/32.46 (step t2353 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23))))) :rule cong :premises (t87 t117 t147 t177 t207))
% 32.25/32.46 (step t2354 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule cong :premises (t160 t166 t172 t178 t184))
% 32.25/32.46 (step t2355 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23))))) :rule cong :premises (t88 t118 t148 t178 t208))
% 32.25/32.46 (step t2356 (cl (= (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule cong :premises (t161 t167 t173 t179 t185))
% 32.25/32.46 (step t2357 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))))) :rule cong :premises (t89 t119 t149 t179 t209))
% 32.25/32.46 (step t2358 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t187 t193 t199 t205 t211))
% 32.25/32.46 (step t2359 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t91 t121 t151 t181 t211))
% 32.25/32.46 (step t2360 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t188 t194 t200 t206 t212))
% 32.25/32.46 (step t2361 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t92 t122 t152 t182 t212))
% 32.25/32.46 (step t2362 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t189 t195 t201 t207 t213))
% 32.25/32.46 (step t2363 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t93 t123 t153 t183 t213))
% 32.25/32.46 (step t2364 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t190 t196 t202 t208 t214))
% 32.25/32.46 (step t2365 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t94 t124 t154 t184 t214))
% 32.25/32.46 (step t2366 (cl (= (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t191 t197 t203 t209 t215))
% 32.25/32.46 (step t2367 (cl (= (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule cong :premises (t95 t125 t155 t185 t215))
% 32.25/32.46 (step t2368 (cl (= (and (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) (or (= (tptp.op2 tptp.e21 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23)) (or (= (tptp.op2 tptp.e22 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23)) (or (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e20) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e20)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e21) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e22)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e23) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e23)) (or (= (tptp.op2 tptp.e24 tptp.e20) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e21) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e23) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (or (= (tptp.op2 tptp.e20 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e21 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e23 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (and (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule cong :premises (t2318 t2319 t2320 t2321 t2322 t2323 t2324 t2325 t2326 t2327 t2328 t2329 t2330 t2331 t2332 t2333 t2334 t2335 t2336 t2337 t2338 t2339 t2340 t2341 t2342 t2343 t2344 t2345 t2346 t2347 t2348 t2349 t2350 t2351 t2352 t2353 t2354 t2355 t2356 t2357 t2358 t2359 t2360 t2361 t2362 t2363 t2364 t2365 t2366 t2367))
% 32.25/32.46 (step t2369 (cl (and (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (or (= tptp.e20 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21))) (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e22 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e23 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23))) (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e22 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t2317 t2368 a5))
% 32.25/32.46 (step t2370 (cl (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule and :premises (t2369))
% 32.25/32.46 (step t2371 (cl (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))) :rule or :premises (t2370))
% 32.25/32.46 (step t2372 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv_pos2)
% 32.25/32.46 (step t2373 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv_simplify)
% 32.25/32.46 (step t2374 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule equiv1 :premises (t2373))
% 32.25/32.46 (step t2375 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))))) :rule all_simplify)
% 32.25/32.46 (step t2376 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule refl)
% 32.25/32.46 (step t2377 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.25/32.46 (step t2378 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t2376 t2377))
% 32.25/32.46 (step t2379 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) true)) :rule all_simplify)
% 32.25/32.46 (step t2380 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) true)) :rule trans :premises (t2378 t2379))
% 32.25/32.46 (step t2381 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) true)) :rule trans :premises (t2375 t2380))
% 32.25/32.46 (step t2382 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t2374 t2381))
% 32.25/32.46 (step t2383 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule refl)
% 32.25/32.46 (step t2384 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))))) :rule cong :premises (t222 t2382 t2383))
% 32.25/32.46 (step t2385 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule and_neg)
% 32.25/32.46 (step t2386 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2387)
% 32.25/32.46 (assume t2387.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (assume t2387.a1 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))
% 32.25/32.46 (step t2387.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2387.t2)
% 32.25/32.46 (assume t2387.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))
% 32.25/32.46 (assume t2387.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (step t2387.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) false) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv_simplify)
% 32.25/32.46 (step t2387.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) false)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule equiv1 :premises (t2387.t2.t1))
% 32.25/32.46 (step t2387.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t2387.t2.a1))
% 32.25/32.46 (step t2387.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t2387.t2.t3))
% 32.25/32.46 (step t2387.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) :rule refl)
% 32.25/32.46 (step t2387.t2.t6 (cl (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule cong :premises (t2387.t2.t4 t2387.t2.t5))
% 32.25/32.46 (step t2387.t2.t7 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv_simplify)
% 32.25/32.46 (step t2387.t2.t8 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv2 :premises (t2387.t2.t7))
% 32.25/32.46 (step t2387.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) :rule not_not)
% 32.25/32.46 (step t2387.t2.t10 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) :rule resolution :premises (t2387.t2.t8 t2387.t2.t9))
% 32.25/32.46 (step t2387.t2.t11 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false)) :rule resolution :premises (t2387.t2.t10 t2387.t2.a0))
% 32.25/32.46 (step t2387.t2.t12 (cl (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)) false)) :rule trans :premises (t2387.t2.t6 t2387.t2.t11))
% 32.25/32.46 (step t2387.t2.t13 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t2387.t2.t2 t2387.t2.t12))
% 32.25/32.46 (step t2387.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule subproof :discharge (t2387.t2.a0 t2387.t2.a1))
% 32.25/32.46 (step t2387.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2387.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2387.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t2387.t2 t2387.t3 t2387.t4))
% 32.25/32.46 (step t2387.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule reordering :premises (t2387.t5))
% 32.25/32.46 (step t2387.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule contraction :premises (t2387.t6))
% 32.25/32.46 (step t2387.t8 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t2387.t1 t2387.t7))
% 32.25/32.46 (step t2387.t9 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule implies_neg2)
% 32.25/32.46 (step t2387.t10 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule resolution :premises (t2387.t8 t2387.t9))
% 32.25/32.46 (step t2387.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule contraction :premises (t2387.t10))
% 32.25/32.46 (step t2387.t12 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule implies :premises (t2387.t11))
% 32.25/32.46 (step t2387.t13 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_neg)
% 32.25/32.46 (step t2387.t14 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t2387.t13 t2387.a1 t2387.a0))
% 32.25/32.46 (step t2387.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t2387.t12 t2387.t14))
% 32.25/32.46 (step t2387 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule subproof :discharge (t2387.a0 t2387.a1))
% 32.25/32.46 (step t2388 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2389 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2390 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))))) :rule resolution :premises (t2387 t2388 t2389))
% 32.25/32.46 (step t2391 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule reordering :premises (t2390))
% 32.25/32.46 (step t2392 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule contraction :premises (t2391))
% 32.25/32.46 (step t2393 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t2386 t2392))
% 32.25/32.46 (step t2394 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule implies_neg2)
% 32.25/32.46 (step t2395 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule resolution :premises (t2393 t2394))
% 32.25/32.46 (step t2396 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule contraction :premises (t2395))
% 32.25/32.46 (step t2397 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule implies :premises (t2396))
% 32.25/32.46 (step t2398 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t2385 t2397))
% 32.25/32.46 (step t2399 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.25/32.46 (step t2400 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))))) :rule or_neg)
% 32.25/32.46 (step t2401 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule or_neg)
% 32.25/32.46 (step t2402 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule resolution :premises (t2398 t2399 t2400 t2401))
% 32.25/32.46 (step t2403 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule contraction :premises (t2402))
% 32.25/32.46 (step t2404 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))))) :rule resolution :premises (t2372 t2384 t2403))
% 32.25/32.46 (step t2405 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule or :premises (t2404))
% 32.25/32.46 (step t2406 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule reordering :premises (t2405))
% 32.25/32.46 (step t2407 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule and :premises (t459))
% 32.25/32.46 (step t2408 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t2406 t461 t2407))
% 32.25/32.46 (step t2409 (cl (or (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule and :premises (t2369))
% 32.25/32.46 (step t2410 (cl (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) :rule or :premises (t2409))
% 32.25/32.46 (step t2411 (cl (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule and :premises (t2369))
% 32.25/32.46 (step t2412 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) :rule or :premises (t2411))
% 32.25/32.46 (step t2413 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule equiv_pos2)
% 32.25/32.46 (step t2414 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule refl)
% 32.25/32.46 (step t2415 (cl (= (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) true) (= (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.46 (step t2416 (cl (not (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) true)) (= (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule equiv1 :premises (t2415))
% 32.25/32.46 (step t2417 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))))) :rule all_simplify)
% 32.25/32.46 (step t2418 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule refl)
% 32.25/32.46 (step t2419 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule all_simplify)
% 32.25/32.46 (step t2420 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule cong :premises (t2418 t2419))
% 32.25/32.46 (step t2421 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) true)) :rule all_simplify)
% 32.25/32.46 (step t2422 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) true)) :rule trans :premises (t2420 t2421))
% 32.25/32.46 (step t2423 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) true)) :rule trans :premises (t2417 t2422))
% 32.25/32.46 (step t2424 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2416 t2423))
% 32.25/32.46 (step t2425 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule refl)
% 32.25/32.46 (step t2426 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))))) :rule cong :premises (t2414 t2424 t2425))
% 32.25/32.46 (step t2427 (cl (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule and_neg)
% 32.25/32.46 (step t2428 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2429)
% 32.25/32.46 (assume t2429.a0 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.46 (assume t2429.a1 (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))
% 32.25/32.46 (step t2429.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2429.t2)
% 32.25/32.46 (assume t2429.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))
% 32.25/32.46 (assume t2429.t2.a1 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.46 (step t2429.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) false) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.46 (step t2429.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) false)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule equiv1 :premises (t2429.t2.t1))
% 32.25/32.46 (step t2429.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t2429.t2.a1))
% 32.25/32.46 (step t2429.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t2429.t2.t3))
% 32.25/32.46 (step t2429.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) :rule refl)
% 32.25/32.46 (step t2429.t2.t6 (cl (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t2429.t2.t4 t2429.t2.t5))
% 32.25/32.46 (step t2429.t2.t7 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) false) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.46 (step t2429.t2.t8 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule equiv2 :premises (t2429.t2.t7))
% 32.25/32.46 (step t2429.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) :rule not_not)
% 32.25/32.46 (step t2429.t2.t10 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) false) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) :rule resolution :premises (t2429.t2.t8 t2429.t2.t9))
% 32.25/32.46 (step t2429.t2.t11 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) false)) :rule resolution :premises (t2429.t2.t10 t2429.t2.a0))
% 32.25/32.46 (step t2429.t2.t12 (cl (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) false)) :rule trans :premises (t2429.t2.t6 t2429.t2.t11))
% 32.25/32.46 (step t2429.t2.t13 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2429.t2.t2 t2429.t2.t12))
% 32.25/32.46 (step t2429.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule subproof :discharge (t2429.t2.a0 t2429.t2.a1))
% 32.25/32.46 (step t2429.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule and_pos)
% 32.25/32.46 (step t2429.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.46 (step t2429.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2429.t2 t2429.t3 t2429.t4))
% 32.25/32.46 (step t2429.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule reordering :premises (t2429.t5))
% 32.25/32.46 (step t2429.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule contraction :premises (t2429.t6))
% 32.25/32.46 (step t2429.t8 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2429.t1 t2429.t7))
% 32.25/32.46 (step t2429.t9 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule implies_neg2)
% 32.25/32.46 (step t2429.t10 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t2429.t8 t2429.t9))
% 32.25/32.46 (step t2429.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule contraction :premises (t2429.t10))
% 32.25/32.46 (step t2429.t12 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule implies :premises (t2429.t11))
% 32.25/32.46 (step t2429.t13 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule and_neg)
% 32.25/32.46 (step t2429.t14 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2429.t13 t2429.a1 t2429.a0))
% 32.25/32.46 (step t2429.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2429.t12 t2429.t14))
% 32.25/32.46 (step t2429 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule subproof :discharge (t2429.a0 t2429.a1))
% 32.25/32.46 (step t2430 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.46 (step t2431 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule and_pos)
% 32.25/32.46 (step t2432 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))))) :rule resolution :premises (t2429 t2430 t2431))
% 32.25/32.46 (step t2433 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule reordering :premises (t2432))
% 32.25/32.46 (step t2434 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule contraction :premises (t2433))
% 32.25/32.46 (step t2435 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2428 t2434))
% 32.25/32.46 (step t2436 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule implies_neg2)
% 32.25/32.46 (step t2437 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t2435 t2436))
% 32.25/32.46 (step t2438 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule contraction :premises (t2437))
% 32.25/32.46 (step t2439 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule implies :premises (t2438))
% 32.25/32.46 (step t2440 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2427 t2439))
% 32.25/32.46 (step t2441 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule or_neg)
% 32.25/32.46 (step t2442 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))))) :rule or_neg)
% 32.25/32.46 (step t2443 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule or_neg)
% 32.25/32.46 (step t2444 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t2440 t2441 t2442 t2443))
% 32.25/32.46 (step t2445 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule contraction :premises (t2444))
% 32.25/32.46 (step t2446 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t2413 t2426 t2445))
% 32.25/32.46 (step t2447 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))) :rule or :premises (t2446))
% 32.25/32.46 (step t2448 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t2447))
% 32.25/32.46 (step t2449 (cl (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule and :premises (t459))
% 32.25/32.46 (step t2450 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2316 t2371 t2408 t2410 t2412 t2448 t2449))
% 32.25/32.46 (step t2451 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) :rule contraction :premises (t2450))
% 32.25/32.46 (step t2452 (cl (not (= (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (or (= tptp.e21 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))))) (not (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) (or (= tptp.e21 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_pos2)
% 32.25/32.46 (step t2453 (cl (= (= (= (not (not (= tptp.e21 tptp.e24))) (= tptp.e21 tptp.e24)) true) (= (not (not (= tptp.e21 tptp.e24))) (= tptp.e21 tptp.e24)))) :rule equiv_simplify)
% 32.25/32.46 (step t2454 (cl (not (= (= (not (not (= tptp.e21 tptp.e24))) (= tptp.e21 tptp.e24)) true)) (= (not (not (= tptp.e21 tptp.e24))) (= tptp.e21 tptp.e24))) :rule equiv1 :premises (t2453))
% 32.25/32.46 (step t2455 (cl (= (= (not (not (= tptp.e21 tptp.e24))) (= tptp.e21 tptp.e24)) (= (= tptp.e21 tptp.e24) (not (not (= tptp.e21 tptp.e24)))))) :rule all_simplify)
% 32.25/32.46 (step t2456 (cl (= (= tptp.e21 tptp.e24) (= tptp.e21 tptp.e24))) :rule refl)
% 32.25/32.46 (step t2457 (cl (= (not (not (= tptp.e21 tptp.e24))) (= tptp.e21 tptp.e24))) :rule all_simplify)
% 32.25/32.46 (step t2458 (cl (= (= (= tptp.e21 tptp.e24) (not (not (= tptp.e21 tptp.e24)))) (= (= tptp.e21 tptp.e24) (= tptp.e21 tptp.e24)))) :rule cong :premises (t2456 t2457))
% 32.25/32.46 (step t2459 (cl (= (= (= tptp.e21 tptp.e24) (= tptp.e21 tptp.e24)) true)) :rule all_simplify)
% 32.25/32.46 (step t2460 (cl (= (= (= tptp.e21 tptp.e24) (not (not (= tptp.e21 tptp.e24)))) true)) :rule trans :premises (t2458 t2459))
% 32.25/32.46 (step t2461 (cl (= (= (not (not (= tptp.e21 tptp.e24))) (= tptp.e21 tptp.e24)) true)) :rule trans :premises (t2455 t2460))
% 32.25/32.46 (step t2462 (cl (= (not (not (= tptp.e21 tptp.e24))) (= tptp.e21 tptp.e24))) :rule resolution :premises (t2454 t2461))
% 32.25/32.46 (step t2463 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))))) :rule refl)
% 32.25/32.46 (step t2464 (cl (= (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (or (= tptp.e21 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))))) :rule cong :premises (t2462 t2463 t2414))
% 32.25/32.46 (step t2465 (cl (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule and_neg)
% 32.25/32.46 (step t2466 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2467)
% 32.25/32.46 (assume t2467.a0 (not (= tptp.e21 tptp.e24)))
% 32.25/32.46 (assume t2467.a1 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.46 (step t2467.t1 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2467.t2)
% 32.25/32.46 (assume t2467.t2.a0 (not (= tptp.e21 tptp.e24)))
% 32.25/32.46 (assume t2467.t2.a1 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.46 (step t2467.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) false) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.46 (step t2467.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) false)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule equiv1 :premises (t2467.t2.t1))
% 32.25/32.46 (step t2467.t2.t3 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.25/32.46 (step t2467.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) :rule symm :premises (t2467.t2.a1))
% 32.25/32.46 (step t2467.t2.t5 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 tptp.e24))) :rule cong :premises (t2467.t2.t3 t2467.t2.t4))
% 32.25/32.46 (step t2467.t2.t6 (cl (= (= (= tptp.e21 tptp.e24) false) (not (= tptp.e21 tptp.e24)))) :rule equiv_simplify)
% 32.25/32.46 (step t2467.t2.t7 (cl (= (= tptp.e21 tptp.e24) false) (not (not (= tptp.e21 tptp.e24)))) :rule equiv2 :premises (t2467.t2.t6))
% 32.25/32.46 (step t2467.t2.t8 (cl (not (not (not (= tptp.e21 tptp.e24)))) (= tptp.e21 tptp.e24)) :rule not_not)
% 32.25/32.46 (step t2467.t2.t9 (cl (= (= tptp.e21 tptp.e24) false) (= tptp.e21 tptp.e24)) :rule resolution :premises (t2467.t2.t7 t2467.t2.t8))
% 32.25/32.46 (step t2467.t2.t10 (cl (= (= tptp.e21 tptp.e24) false)) :rule resolution :premises (t2467.t2.t9 t2467.t2.a0))
% 32.25/32.46 (step t2467.t2.t11 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) false)) :rule trans :premises (t2467.t2.t5 t2467.t2.t10))
% 32.25/32.46 (step t2467.t2.t12 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2467.t2.t2 t2467.t2.t11))
% 32.25/32.46 (step t2467.t2 (cl (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule subproof :discharge (t2467.t2.a0 t2467.t2.a1))
% 32.25/32.46 (step t2467.t3 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2467.t4 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.46 (step t2467.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2467.t2 t2467.t3 t2467.t4))
% 32.25/32.46 (step t2467.t6 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t2467.t5))
% 32.25/32.46 (step t2467.t7 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule contraction :premises (t2467.t6))
% 32.25/32.46 (step t2467.t8 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2467.t1 t2467.t7))
% 32.25/32.46 (step t2467.t9 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg2)
% 32.25/32.46 (step t2467.t10 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2467.t8 t2467.t9))
% 32.25/32.46 (step t2467.t11 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t2467.t10))
% 32.25/32.46 (step t2467.t12 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies :premises (t2467.t11))
% 32.25/32.46 (step t2467.t13 (cl (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule and_neg)
% 32.25/32.46 (step t2467.t14 (cl (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2467.t13 t2467.a0 t2467.a1))
% 32.25/32.46 (step t2467.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2467.t12 t2467.t14))
% 32.25/32.46 (step t2467 (cl (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule subproof :discharge (t2467.a0 t2467.a1))
% 32.25/32.46 (step t2468 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2469 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.46 (step t2470 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2467 t2468 t2469))
% 32.25/32.46 (step t2471 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t2470))
% 32.25/32.46 (step t2472 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule contraction :premises (t2471))
% 32.25/32.46 (step t2473 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2466 t2472))
% 32.25/32.46 (step t2474 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg2)
% 32.25/32.46 (step t2475 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2473 t2474))
% 32.25/32.46 (step t2476 (cl (=> (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t2475))
% 32.25/32.46 (step t2477 (cl (not (and (not (= tptp.e21 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies :premises (t2476))
% 32.25/32.46 (step t2478 (cl (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2465 t2477))
% 32.25/32.46 (step t2479 (cl (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (not (= tptp.e21 tptp.e24))))) :rule or_neg)
% 32.25/32.46 (step t2480 (cl (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))))) :rule or_neg)
% 32.25/32.46 (step t2481 (cl (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule or_neg)
% 32.25/32.46 (step t2482 (cl (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2478 t2479 t2480 t2481))
% 32.25/32.46 (step t2483 (cl (or (not (not (= tptp.e21 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t2482))
% 32.25/32.46 (step t2484 (cl (or (= tptp.e21 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2452 t2464 t2483))
% 32.25/32.46 (step t2485 (cl (= tptp.e21 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule or :premises (t2484))
% 32.25/32.46 (step t2486 (cl (= tptp.e21 tptp.e24) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t2485))
% 32.25/32.46 (step t2487 (cl (not (= tptp.e21 tptp.e24))) :rule and :premises (a9))
% 32.25/32.46 (step t2488 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2451 t2486 t2487))
% 32.25/32.46 (step t2489 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) :rule contraction :premises (t2488))
% 32.25/32.46 (step t2490 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.46 (step t2491 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2492)
% 32.25/32.46 (assume t2492.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2492.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (assume t2492.a2 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))
% 32.25/32.46 (assume t2492.a3 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))
% 32.25/32.46 (assume t2492.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.46 (assume t2492.a5 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.46 (assume t2492.a6 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.46 (assume t2492.a7 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.46 (step t2492.t1 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2492.t2)
% 32.25/32.46 (assume t2492.t2.a0 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.46 (assume t2492.t2.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.46 (assume t2492.t2.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.46 (assume t2492.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.46 (assume t2492.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (assume t2492.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2492.t2.a6 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))
% 32.25/32.46 (assume t2492.t2.a7 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))
% 32.25/32.46 (step t2492.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14)) :rule symm :premises (t2492.t2.a7))
% 32.25/32.46 (step t2492.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.h2 tptp.e14))) :rule cong :premises (t2492.t2.t1))
% 32.25/32.46 (step t2492.t2.t3 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t2492.t2.a1))
% 32.25/32.46 (step t2492.t2.t4 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21)) :rule symm :premises (t2492.t2.a6))
% 32.25/32.46 (step t2492.t2.t5 (cl (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t2492.t2.t4))
% 32.25/32.46 (step t2492.t2.t6 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t2492.t2.a5))
% 32.25/32.46 (step t2492.t2.t7 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t2492.t2.t6))
% 32.25/32.46 (step t2492.t2.t8 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t2492.t2.a4))
% 32.25/32.46 (step t2492.t2.t9 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.46 (step t2492.t2.t10 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t2492.t2.t8 t2492.t2.t9))
% 32.25/32.46 (step t2492.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t2492.t2.a3))
% 32.25/32.46 (step t2492.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t2492.t2.t11))
% 32.25/32.46 (step t2492.t2.t13 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t2492.t2.t12 t2492.t2.a2))
% 32.25/32.46 (step t2492.t2.t14 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t2492.t2.a1 t2492.t2.t13))
% 32.25/32.46 (step t2492.t2.t15 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t2492.t2.a2))
% 32.25/32.46 (step t2492.t2.t16 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t2492.t2.t3 t2492.t2.t15))
% 32.25/32.46 (step t2492.t2.t17 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t2492.t2.a0))
% 32.25/32.46 (step t2492.t2.t18 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t2492.t2.t17))
% 32.25/32.46 (step t2492.t2.t19 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t2492.t2.t7 t2492.t2.t10 t2492.t2.t14 t2492.t2.t16 t2492.t2.t18))
% 32.25/32.46 (step t2492.t2.t20 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule cong :premises (t2492.t2.t19 t2492.t2.t19))
% 32.25/32.46 (step t2492.t2.t21 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule trans :premises (t2492.t2.t2 t2492.t2.t3 t2492.t2.t5 t2492.t2.t20))
% 32.25/32.46 (step t2492.t2 (cl (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t2492.t2.a0 t2492.t2.a1 t2492.t2.a2 t2492.t2.a3 t2492.t2.a4 t2492.t2.a5 t2492.t2.a6 t2492.t2.a7))
% 32.25/32.46 (step t2492.t3 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2492.t4 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2492.t5 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2492.t6 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2492.t7 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2492.t8 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2492.t9 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.25/32.46 (step t2492.t10 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2492.t11 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t2492.t2 t2492.t3 t2492.t4 t2492.t5 t2492.t6 t2492.t7 t2492.t8 t2492.t9 t2492.t10))
% 32.25/32.46 (step t2492.t12 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule reordering :premises (t2492.t11))
% 32.25/32.46 (step t2492.t13 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule contraction :premises (t2492.t12))
% 32.25/32.46 (step t2492.t14 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule resolution :premises (t2492.t1 t2492.t13))
% 32.25/32.46 (step t2492.t15 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.25/32.46 (step t2492.t16 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule resolution :premises (t2492.t14 t2492.t15))
% 32.25/32.46 (step t2492.t17 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule contraction :premises (t2492.t16))
% 32.25/32.46 (step t2492.t18 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule implies :premises (t2492.t17))
% 32.25/32.46 (step t2492.t19 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) :rule and_neg)
% 32.25/32.46 (step t2492.t20 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t2492.t19 t2492.a7 t2492.a5 t2492.a6 t2492.a4 t2492.a1 t2492.a0 t2492.a3 t2492.a2))
% 32.25/32.46 (step t2492.t21 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule resolution :premises (t2492.t18 t2492.t20))
% 32.25/32.46 (step t2492 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t2492.a0 t2492.a1 t2492.a2 t2492.a3 t2492.a4 t2492.a5 t2492.a6 t2492.a7))
% 32.25/32.46 (step t2493 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2494 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2495 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2496 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.25/32.46 (step t2497 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2498 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2499 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2500 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2501 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t2492 t2493 t2494 t2495 t2496 t2497 t2498 t2499 t2500))
% 32.25/32.46 (step t2502 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule reordering :premises (t2501))
% 32.25/32.46 (step t2503 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule contraction :premises (t2502))
% 32.25/32.46 (step t2504 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule resolution :premises (t2491 t2503))
% 32.25/32.46 (step t2505 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.25/32.46 (step t2506 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule resolution :premises (t2504 t2505))
% 32.25/32.46 (step t2507 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))))) :rule contraction :premises (t2506))
% 32.25/32.46 (step t2508 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule implies :premises (t2507))
% 32.25/32.46 (step t2509 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13)))) :rule resolution :premises (t2490 t2508))
% 32.25/32.46 (step t2510 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e13))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t2509))
% 32.25/32.46 (step t2511 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.h2 tptp.e14)))) :rule and_neg)
% 32.25/32.46 (step t2512 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2513)
% 32.25/32.46 (assume t2513.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (assume t2513.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2513.a2 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.46 (assume t2513.a3 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.46 (assume t2513.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.46 (assume t2513.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.25/32.46 (assume t2513.a6 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.46 (step t2513.t1 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2513.t2)
% 32.25/32.46 (assume t2513.t2.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2513.t2.a1 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.46 (assume t2513.t2.a2 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.46 (assume t2513.t2.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.46 (assume t2513.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (assume t2513.t2.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.25/32.46 (assume t2513.t2.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.46 (step t2513.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14)) :rule symm :premises (t2513.t2.a1))
% 32.25/32.46 (step t2513.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.h2 tptp.e14))) :rule cong :premises (t2513.t2.t1))
% 32.25/32.46 (step t2513.t2.t3 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t2513.t2.a2))
% 32.25/32.46 (step t2513.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t2513.t2.a5))
% 32.25/32.46 (step t2513.t2.t5 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t2513.t2.t4))
% 32.25/32.46 (step t2513.t2.t6 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t2513.t2.a0))
% 32.25/32.46 (step t2513.t2.t7 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2513.t2.t6))
% 32.25/32.46 (step t2513.t2.t8 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.46 (step t2513.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t2513.t2.a4))
% 32.25/32.46 (step t2513.t2.t10 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t2513.t2.t8 t2513.t2.t9))
% 32.25/32.46 (step t2513.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t2513.t2.a6))
% 32.25/32.46 (step t2513.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t2513.t2.t11))
% 32.25/32.46 (step t2513.t2.t13 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.25/32.46 (step t2513.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t2513.t2.t12 t2513.t2.t13))
% 32.25/32.46 (step t2513.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t2513.t2.a3))
% 32.25/32.46 (step t2513.t2.t16 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t2513.t2.t7 t2513.t2.t10 t2513.t2.t14 t2513.t2.t15))
% 32.25/32.46 (step t2513.t2.t17 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule cong :premises (t2513.t2.t16 t2513.t2.t16))
% 32.25/32.46 (step t2513.t2.t18 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule trans :premises (t2513.t2.t2 t2513.t2.t3 t2513.t2.t5 t2513.t2.t17))
% 32.25/32.46 (step t2513.t2 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t2513.t2.a0 t2513.t2.a1 t2513.t2.a2 t2513.t2.a3 t2513.t2.a4 t2513.t2.a5 t2513.t2.a6))
% 32.25/32.46 (step t2513.t3 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2513.t4 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.46 (step t2513.t5 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2513.t6 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2513.t7 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2513.t8 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.25/32.46 (step t2513.t9 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2513.t10 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t2513.t2 t2513.t3 t2513.t4 t2513.t5 t2513.t6 t2513.t7 t2513.t8 t2513.t9))
% 32.25/32.46 (step t2513.t11 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule reordering :premises (t2513.t10))
% 32.25/32.46 (step t2513.t12 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule contraction :premises (t2513.t11))
% 32.25/32.46 (step t2513.t13 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule resolution :premises (t2513.t1 t2513.t12))
% 32.25/32.46 (step t2513.t14 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.25/32.46 (step t2513.t15 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule resolution :premises (t2513.t13 t2513.t14))
% 32.25/32.46 (step t2513.t16 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule contraction :premises (t2513.t15))
% 32.25/32.46 (step t2513.t17 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule implies :premises (t2513.t16))
% 32.25/32.46 (step t2513.t18 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule and_neg)
% 32.25/32.46 (step t2513.t19 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t2513.t18 t2513.a1 t2513.a3 t2513.a6 t2513.a2 t2513.a0 t2513.a5 t2513.a4))
% 32.25/32.46 (step t2513.t20 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule resolution :premises (t2513.t17 t2513.t19))
% 32.25/32.46 (step t2513 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t2513.a0 t2513.a1 t2513.a2 t2513.a3 t2513.a4 t2513.a5 t2513.a6))
% 32.25/32.46 (step t2514 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2515 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2516 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2517 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.46 (step t2518 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2519 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.25/32.46 (step t2520 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2521 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14))))) :rule resolution :premises (t2513 t2514 t2515 t2516 t2517 t2518 t2519 t2520))
% 32.25/32.46 (step t2522 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule reordering :premises (t2521))
% 32.25/32.46 (step t2523 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule contraction :premises (t2522))
% 32.25/32.46 (step t2524 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule resolution :premises (t2512 t2523))
% 32.25/32.46 (step t2525 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.25/32.46 (step t2526 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule resolution :premises (t2524 t2525))
% 32.25/32.46 (step t2527 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))))) :rule contraction :premises (t2526))
% 32.25/32.46 (step t2528 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule implies :premises (t2527))
% 32.25/32.46 (step t2529 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10)))) :rule resolution :premises (t2511 t2528))
% 32.25/32.46 (step t2530 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))) :rule reordering :premises (t2529))
% 32.25/32.46 (step t2531 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.46 (step t2532 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2533)
% 32.25/32.46 (assume t2533.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2533.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (assume t2533.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2533.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.46 (assume t2533.a4 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))
% 32.25/32.46 (assume t2533.a5 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.46 (assume t2533.a6 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.46 (assume t2533.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.46 (assume t2533.a8 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.46 (assume t2533.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.46 (step t2533.t1 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2533.t2)
% 32.25/32.46 (assume t2533.t2.a0 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.46 (assume t2533.t2.a1 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.46 (assume t2533.t2.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.46 (assume t2533.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (assume t2533.t2.a4 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2533.t2.a5 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.46 (assume t2533.t2.a6 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.46 (assume t2533.t2.a7 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2533.t2.a8 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.46 (assume t2533.t2.a9 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))
% 32.25/32.46 (step t2533.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e13) tptp.e11)) :rule symm :premises (t2533.t2.a9))
% 32.25/32.46 (step t2533.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.h2 tptp.e11))) :rule cong :premises (t2533.t2.t1))
% 32.25/32.46 (step t2533.t2.t3 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t2533.t2.a1))
% 32.25/32.46 (step t2533.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t2533.t2.a2))
% 32.25/32.46 (step t2533.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) :rule symm :premises (t2533.t2.a8))
% 32.25/32.46 (step t2533.t2.t6 (cl (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t2533.t2.t5))
% 32.25/32.46 (step t2533.t2.t7 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t2533.t2.a4))
% 32.25/32.46 (step t2533.t2.t8 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2533.t2.t7))
% 32.25/32.46 (step t2533.t2.t9 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.46 (step t2533.t2.t10 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t2533.t2.a3))
% 32.25/32.46 (step t2533.t2.t11 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t2533.t2.t9 t2533.t2.t10))
% 32.25/32.46 (step t2533.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t2533.t2.t4))
% 32.25/32.46 (step t2533.t2.t13 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.25/32.46 (step t2533.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t2533.t2.t12 t2533.t2.t13))
% 32.25/32.46 (step t2533.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t2533.t2.a0))
% 32.25/32.46 (step t2533.t2.t16 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t2533.t2.t8 t2533.t2.t11 t2533.t2.t14 t2533.t2.t15))
% 32.25/32.46 (step t2533.t2.t17 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t2533.t2.a7))
% 32.25/32.46 (step t2533.t2.t18 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t2533.t2.t17))
% 32.25/32.46 (step t2533.t2.t19 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t2533.t2.t10 t2533.t2.t9))
% 32.25/32.46 (step t2533.t2.t20 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t2533.t2.t12 t2533.t2.a1))
% 32.25/32.46 (step t2533.t2.t21 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t2533.t2.a6 t2533.t2.t20))
% 32.25/32.46 (step t2533.t2.t22 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t2533.t2.a6))
% 32.25/32.46 (step t2533.t2.t23 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t2533.t2.t22 t2533.t2.t3))
% 32.25/32.46 (step t2533.t2.t24 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t2533.t2.a5))
% 32.25/32.46 (step t2533.t2.t25 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t2533.t2.t24))
% 32.25/32.46 (step t2533.t2.t26 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t2533.t2.t18 t2533.t2.t19 t2533.t2.t21 t2533.t2.t23 t2533.t2.t25))
% 32.25/32.46 (step t2533.t2.t27 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule cong :premises (t2533.t2.t16 t2533.t2.t26))
% 32.25/32.46 (step t2533.t2.t28 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule trans :premises (t2533.t2.t2 t2533.t2.t3 t2533.t2.t4 t2533.t2.t6 t2533.t2.t27))
% 32.25/32.46 (step t2533.t2 (cl (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t2533.t2.a0 t2533.t2.a1 t2533.t2.a2 t2533.t2.a3 t2533.t2.a4 t2533.t2.a5 t2533.t2.a6 t2533.t2.a7 t2533.t2.a8 t2533.t2.a9))
% 32.25/32.46 (step t2533.t3 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2533.t4 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2533.t5 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2533.t6 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2533.t7 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2533.t8 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2533.t9 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2533.t10 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2533.t11 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.46 (step t2533.t12 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2533.t13 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))))) :rule resolution :premises (t2533.t2 t2533.t3 t2533.t4 t2533.t5 t2533.t6 t2533.t7 t2533.t8 t2533.t9 t2533.t10 t2533.t11 t2533.t12))
% 32.25/32.46 (step t2533.t14 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule reordering :premises (t2533.t13))
% 32.25/32.46 (step t2533.t15 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule contraction :premises (t2533.t14))
% 32.25/32.46 (step t2533.t16 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule resolution :premises (t2533.t1 t2533.t15))
% 32.25/32.46 (step t2533.t17 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.25/32.46 (step t2533.t18 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule resolution :premises (t2533.t16 t2533.t17))
% 32.25/32.46 (step t2533.t19 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule contraction :premises (t2533.t18))
% 32.25/32.46 (step t2533.t20 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule implies :premises (t2533.t19))
% 32.25/32.46 (step t2533.t21 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) :rule and_neg)
% 32.25/32.46 (step t2533.t22 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)))) :rule resolution :premises (t2533.t21 t2533.a3 t2533.a8 t2533.a5 t2533.a1 t2533.a2 t2533.a9 t2533.a7 t2533.a0 t2533.a6 t2533.a4))
% 32.25/32.46 (step t2533.t23 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule resolution :premises (t2533.t20 t2533.t22))
% 32.25/32.46 (step t2533 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t2533.a0 t2533.a1 t2533.a2 t2533.a3 t2533.a4 t2533.a5 t2533.a6 t2533.a7 t2533.a8 t2533.a9))
% 32.25/32.46 (step t2534 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2535 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2536 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2537 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2538 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2539 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2540 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.46 (step t2541 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2542 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2543 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2544 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t2533 t2534 t2535 t2536 t2537 t2538 t2539 t2540 t2541 t2542 t2543))
% 32.25/32.46 (step t2545 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule reordering :premises (t2544))
% 32.25/32.46 (step t2546 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule contraction :premises (t2545))
% 32.25/32.46 (step t2547 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule resolution :premises (t2532 t2546))
% 32.25/32.46 (step t2548 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.25/32.46 (step t2549 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule resolution :premises (t2547 t2548))
% 32.25/32.46 (step t2550 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))))) :rule contraction :premises (t2549))
% 32.25/32.46 (step t2551 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule implies :premises (t2550))
% 32.25/32.46 (step t2552 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13)))) :rule resolution :premises (t2531 t2551))
% 32.25/32.46 (step t2553 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t2552))
% 32.25/32.46 (step t2554 (cl (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14))) :rule or :premises (t1821))
% 32.25/32.46 (step t2555 (cl (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)))) :rule and :premises (t1410))
% 32.25/32.46 (step t2556 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10))) :rule or :premises (t2555))
% 32.25/32.46 (step t2557 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14))) :rule or :premises (t1780))
% 32.25/32.46 (step t2558 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.46 (step t2559 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2560)
% 32.25/32.46 (assume t2560.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2560.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (assume t2560.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2560.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.46 (assume t2560.a4 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.46 (assume t2560.a5 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.25/32.46 (assume t2560.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.46 (assume t2560.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.46 (assume t2560.a8 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.46 (assume t2560.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.46 (step t2560.t1 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2560.t2)
% 32.25/32.46 (assume t2560.t2.a0 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.46 (assume t2560.t2.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.46 (assume t2560.t2.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.46 (assume t2560.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.46 (assume t2560.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.46 (assume t2560.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2560.t2.a6 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.46 (assume t2560.t2.a7 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2560.t2.a8 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.25/32.46 (assume t2560.t2.a9 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.46 (step t2560.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e11)) :rule symm :premises (t2560.t2.a9))
% 32.25/32.46 (step t2560.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.h2 tptp.e11))) :rule cong :premises (t2560.t2.t1))
% 32.25/32.46 (step t2560.t2.t3 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t2560.t2.a2))
% 32.25/32.46 (step t2560.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t2560.t2.a3))
% 32.25/32.46 (step t2560.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t2560.t2.a8))
% 32.25/32.46 (step t2560.t2.t6 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t2560.t2.t5))
% 32.25/32.46 (step t2560.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t2560.t2.a5))
% 32.25/32.46 (step t2560.t2.t8 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t2560.t2.t7))
% 32.25/32.46 (step t2560.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t2560.t2.a4))
% 32.25/32.46 (step t2560.t2.t10 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.46 (step t2560.t2.t11 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t2560.t2.t9 t2560.t2.t10))
% 32.25/32.46 (step t2560.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t2560.t2.t4))
% 32.25/32.46 (step t2560.t2.t13 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t2560.t2.t12 t2560.t2.a2))
% 32.25/32.46 (step t2560.t2.t14 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t2560.t2.a1 t2560.t2.t13))
% 32.25/32.46 (step t2560.t2.t15 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t2560.t2.a1))
% 32.25/32.46 (step t2560.t2.t16 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t2560.t2.t15 t2560.t2.t3))
% 32.25/32.46 (step t2560.t2.t17 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t2560.t2.a0))
% 32.25/32.46 (step t2560.t2.t18 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t2560.t2.t17))
% 32.25/32.46 (step t2560.t2.t19 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t2560.t2.t8 t2560.t2.t11 t2560.t2.t14 t2560.t2.t16 t2560.t2.t18))
% 32.25/32.46 (step t2560.t2.t20 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t2560.t2.a7))
% 32.25/32.46 (step t2560.t2.t21 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2560.t2.t20))
% 32.25/32.46 (step t2560.t2.t22 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t2560.t2.t10 t2560.t2.t9))
% 32.25/32.46 (step t2560.t2.t23 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.25/32.46 (step t2560.t2.t24 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t2560.t2.t12 t2560.t2.t23))
% 32.25/32.46 (step t2560.t2.t25 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t2560.t2.a6))
% 32.25/32.46 (step t2560.t2.t26 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t2560.t2.t21 t2560.t2.t22 t2560.t2.t24 t2560.t2.t25))
% 32.25/32.46 (step t2560.t2.t27 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule cong :premises (t2560.t2.t19 t2560.t2.t26))
% 32.25/32.46 (step t2560.t2.t28 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule trans :premises (t2560.t2.t2 t2560.t2.t3 t2560.t2.t4 t2560.t2.t6 t2560.t2.t27))
% 32.25/32.46 (step t2560.t2 (cl (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t2560.t2.a0 t2560.t2.a1 t2560.t2.a2 t2560.t2.a3 t2560.t2.a4 t2560.t2.a5 t2560.t2.a6 t2560.t2.a7 t2560.t2.a8 t2560.t2.a9))
% 32.25/32.46 (step t2560.t3 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2560.t4 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2560.t5 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2560.t6 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2560.t7 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2560.t8 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2560.t9 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2560.t10 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2560.t11 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.25/32.46 (step t2560.t12 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.46 (step t2560.t13 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t2560.t2 t2560.t3 t2560.t4 t2560.t5 t2560.t6 t2560.t7 t2560.t8 t2560.t9 t2560.t10 t2560.t11 t2560.t12))
% 32.25/32.46 (step t2560.t14 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule reordering :premises (t2560.t13))
% 32.25/32.46 (step t2560.t15 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule contraction :premises (t2560.t14))
% 32.25/32.46 (step t2560.t16 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule resolution :premises (t2560.t1 t2560.t15))
% 32.25/32.46 (step t2560.t17 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.25/32.46 (step t2560.t18 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule resolution :premises (t2560.t16 t2560.t17))
% 32.25/32.46 (step t2560.t19 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule contraction :premises (t2560.t18))
% 32.25/32.46 (step t2560.t20 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule implies :premises (t2560.t19))
% 32.25/32.46 (step t2560.t21 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_neg)
% 32.25/32.46 (step t2560.t22 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t2560.t21 t2560.a9 t2560.a7 t2560.a8 t2560.a6 t2560.a1 t2560.a0 t2560.a3 t2560.a2 t2560.a5 t2560.a4))
% 32.25/32.46 (step t2560.t23 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule resolution :premises (t2560.t20 t2560.t22))
% 32.25/32.46 (step t2560 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t2560.a0 t2560.a1 t2560.a2 t2560.a3 t2560.a4 t2560.a5 t2560.a6 t2560.a7 t2560.a8 t2560.a9))
% 32.25/32.46 (step t2561 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2562 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2563 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2564 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2565 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.46 (step t2566 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.25/32.46 (step t2567 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.46 (step t2568 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2569 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.46 (step t2570 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2571 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t2560 t2561 t2562 t2563 t2564 t2565 t2566 t2567 t2568 t2569 t2570))
% 32.25/32.46 (step t2572 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule reordering :premises (t2571))
% 32.25/32.46 (step t2573 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule contraction :premises (t2572))
% 32.25/32.46 (step t2574 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule resolution :premises (t2559 t2573))
% 32.25/32.46 (step t2575 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.25/32.46 (step t2576 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule resolution :premises (t2574 t2575))
% 32.25/32.46 (step t2577 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))))) :rule contraction :premises (t2576))
% 32.25/32.46 (step t2578 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule implies :premises (t2577))
% 32.25/32.46 (step t2579 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10)))) :rule resolution :premises (t2558 t2578))
% 32.25/32.46 (step t2580 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t2579))
% 32.25/32.46 (step t2581 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e12 tptp.unit1))) :rule resolution :premises (t748 t779 t802 t821 t838 t840 t2510 t801 t778 t776 t461 t865 t2530 t777 t776 t864 t461 t2553 t801 t778 t777 t776 t864 t461 t865 t2554 t2556 t2557 t1818 t2580 t801 t778 t777 t776 t864 t461 t865 t1893 t767 t1361 t1381 t1382))
% 32.25/32.46 (step t2582 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e12 tptp.unit1))) :rule contraction :premises (t2581))
% 32.25/32.46 (step t2583 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t2582 t1857 t1858))
% 32.25/32.46 (step t2584 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e12 tptp.unit1))) :rule contraction :premises (t2583))
% 32.25/32.46 (step t2585 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.25/32.46 (step t2586 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2587)
% 32.25/32.46 (assume t2587.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2587.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2587.a2 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))
% 32.25/32.46 (assume t2587.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.25/32.46 (assume t2587.a4 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.46 (assume t2587.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.46 (assume t2587.a6 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.46 (step t2587.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2587.t2)
% 32.25/32.46 (assume t2587.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.46 (assume t2587.t2.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2587.t2.a2 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.46 (assume t2587.t2.a3 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2587.t2.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.25/32.46 (assume t2587.t2.a5 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.46 (assume t2587.t2.a6 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))
% 32.25/32.46 (step t2587.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e13) tptp.e14)) :rule symm :premises (t2587.t2.a6))
% 32.25/32.46 (step t2587.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.h5 tptp.e14))) :rule cong :premises (t2587.t2.t1))
% 32.25/32.46 (step t2587.t2.t3 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t2587.t2.a5))
% 32.25/32.46 (step t2587.t2.t4 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t2587.t2.a4))
% 32.25/32.46 (step t2587.t2.t5 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t2587.t2.t4))
% 32.25/32.46 (step t2587.t2.t6 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t2587.t2.a1))
% 32.25/32.46 (step t2587.t2.t7 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t2587.t2.t6))
% 32.25/32.46 (step t2587.t2.t8 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t2587.t2.a0))
% 32.25/32.46 (step t2587.t2.t9 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t2587.t2.t8))
% 32.25/32.46 (step t2587.t2.t10 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t2587.t2.t7 t2587.t2.t9))
% 32.25/32.46 (step t2587.t2.t11 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t2587.t2.a3))
% 32.25/32.46 (step t2587.t2.t12 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2587.t2.t11))
% 32.25/32.46 (step t2587.t2.t13 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2587.t2.a2))
% 32.25/32.46 (step t2587.t2.t14 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t2587.t2.t13))
% 32.25/32.46 (step t2587.t2.t15 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t2587.t2.t12 t2587.t2.t14))
% 32.25/32.46 (step t2587.t2.t16 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule cong :premises (t2587.t2.t10 t2587.t2.t15))
% 32.25/32.46 (step t2587.t2.t17 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule trans :premises (t2587.t2.t2 t2587.t2.t3 t2587.t2.t5 t2587.t2.t16))
% 32.25/32.46 (step t2587.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t2587.t2.a0 t2587.t2.a1 t2587.t2.a2 t2587.t2.a3 t2587.t2.a4 t2587.t2.a5 t2587.t2.a6))
% 32.25/32.46 (step t2587.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.46 (step t2587.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2587.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2587.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2587.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.25/32.46 (step t2587.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2587.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2587.t10 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))))) :rule resolution :premises (t2587.t2 t2587.t3 t2587.t4 t2587.t5 t2587.t6 t2587.t7 t2587.t8 t2587.t9))
% 32.25/32.46 (step t2587.t11 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule reordering :premises (t2587.t10))
% 32.25/32.46 (step t2587.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule contraction :premises (t2587.t11))
% 32.25/32.46 (step t2587.t13 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule resolution :premises (t2587.t1 t2587.t12))
% 32.25/32.46 (step t2587.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.25/32.46 (step t2587.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule resolution :premises (t2587.t13 t2587.t14))
% 32.25/32.46 (step t2587.t16 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule contraction :premises (t2587.t15))
% 32.25/32.46 (step t2587.t17 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule implies :premises (t2587.t16))
% 32.25/32.46 (step t2587.t18 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) :rule and_neg)
% 32.25/32.46 (step t2587.t19 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)))) :rule resolution :premises (t2587.t18 t2587.a5 t2587.a0 t2587.a6 t2587.a1 t2587.a3 t2587.a4 t2587.a2))
% 32.25/32.46 (step t2587.t20 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule resolution :premises (t2587.t17 t2587.t19))
% 32.25/32.46 (step t2587 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t2587.a0 t2587.a1 t2587.a2 t2587.a3 t2587.a4 t2587.a5 t2587.a6))
% 32.25/32.46 (step t2588 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2589 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2590 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2591 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.25/32.46 (step t2592 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2593 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.46 (step t2594 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2595 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t2587 t2588 t2589 t2590 t2591 t2592 t2593 t2594))
% 32.25/32.46 (step t2596 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule reordering :premises (t2595))
% 32.25/32.46 (step t2597 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule contraction :premises (t2596))
% 32.25/32.46 (step t2598 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule resolution :premises (t2586 t2597))
% 32.25/32.46 (step t2599 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.25/32.46 (step t2600 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule resolution :premises (t2598 t2599))
% 32.25/32.46 (step t2601 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))))) :rule contraction :premises (t2600))
% 32.25/32.46 (step t2602 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule implies :premises (t2601))
% 32.25/32.46 (step t2603 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13)))) :rule resolution :premises (t2585 t2602))
% 32.25/32.46 (step t2604 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e13))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t2603))
% 32.25/32.46 (step t2605 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule or :premises (t1108))
% 32.25/32.46 (step t2606 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.25/32.46 (step t2607 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2608)
% 32.25/32.46 (assume t2608.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2608.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2608.a2 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.46 (assume t2608.a3 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.46 (assume t2608.a4 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.46 (assume t2608.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.46 (assume t2608.a6 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.46 (step t2608.t1 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg1)
% 32.25/32.46 (anchor :step t2608.t2)
% 32.25/32.46 (assume t2608.t2.a0 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.46 (assume t2608.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.46 (assume t2608.t2.a2 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.46 (assume t2608.t2.a3 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.46 (assume t2608.t2.a4 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.46 (assume t2608.t2.a5 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.25/32.46 (assume t2608.t2.a6 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))
% 32.25/32.46 (step t2608.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e14)) :rule symm :premises (t2608.t2.a6))
% 32.25/32.46 (step t2608.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.h5 tptp.e14))) :rule cong :premises (t2608.t2.t1))
% 32.25/32.46 (step t2608.t2.t3 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t2608.t2.a5))
% 32.25/32.46 (step t2608.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) :rule symm :premises (t2608.t2.a4))
% 32.25/32.46 (step t2608.t2.t5 (cl (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t2608.t2.t4))
% 32.25/32.46 (step t2608.t2.t6 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t2608.t2.a1))
% 32.25/32.46 (step t2608.t2.t7 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2608.t2.t6))
% 32.25/32.46 (step t2608.t2.t8 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2608.t2.a0))
% 32.25/32.46 (step t2608.t2.t9 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t2608.t2.t8))
% 32.25/32.46 (step t2608.t2.t10 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t2608.t2.t7 t2608.t2.t9))
% 32.25/32.46 (step t2608.t2.t11 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t2608.t2.a3))
% 32.25/32.46 (step t2608.t2.t12 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t2608.t2.t11))
% 32.25/32.46 (step t2608.t2.t13 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t2608.t2.a2))
% 32.25/32.46 (step t2608.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t2608.t2.t13))
% 32.25/32.46 (step t2608.t2.t15 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t2608.t2.t12 t2608.t2.t14))
% 32.25/32.46 (step t2608.t2.t16 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule cong :premises (t2608.t2.t10 t2608.t2.t15))
% 32.25/32.46 (step t2608.t2.t17 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule trans :premises (t2608.t2.t2 t2608.t2.t3 t2608.t2.t5 t2608.t2.t16))
% 32.25/32.46 (step t2608.t2 (cl (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t2608.t2.a0 t2608.t2.a1 t2608.t2.a2 t2608.t2.a3 t2608.t2.a4 t2608.t2.a5 t2608.t2.a6))
% 32.25/32.46 (step t2608.t3 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.46 (step t2608.t4 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.46 (step t2608.t5 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.46 (step t2608.t6 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.46 (step t2608.t7 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.46 (step t2608.t8 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.46 (step t2608.t9 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.46 (step t2608.t10 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t2608.t2 t2608.t3 t2608.t4 t2608.t5 t2608.t6 t2608.t7 t2608.t8 t2608.t9))
% 32.25/32.46 (step t2608.t11 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule reordering :premises (t2608.t10))
% 32.25/32.47 (step t2608.t12 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule contraction :premises (t2608.t11))
% 32.25/32.47 (step t2608.t13 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule resolution :premises (t2608.t1 t2608.t12))
% 32.25/32.47 (step t2608.t14 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2608.t15 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule resolution :premises (t2608.t13 t2608.t14))
% 32.25/32.47 (step t2608.t16 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule contraction :premises (t2608.t15))
% 32.25/32.47 (step t2608.t17 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule implies :premises (t2608.t16))
% 32.25/32.47 (step t2608.t18 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_neg)
% 32.25/32.47 (step t2608.t19 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t2608.t18 t2608.a6 t2608.a1 t2608.a5 t2608.a0 t2608.a3 t2608.a4 t2608.a2))
% 32.25/32.47 (step t2608.t20 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule resolution :premises (t2608.t17 t2608.t19))
% 32.25/32.47 (step t2608 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t2608.a0 t2608.a1 t2608.a2 t2608.a3 t2608.a4 t2608.a5 t2608.a6))
% 32.25/32.47 (step t2609 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2610 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t2611 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.25/32.47 (step t2612 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.47 (step t2613 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2614 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.47 (step t2615 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.47 (step t2616 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t2608 t2609 t2610 t2611 t2612 t2613 t2614 t2615))
% 32.25/32.47 (step t2617 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule reordering :premises (t2616))
% 32.25/32.47 (step t2618 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule contraction :premises (t2617))
% 32.25/32.47 (step t2619 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule resolution :premises (t2607 t2618))
% 32.25/32.47 (step t2620 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2621 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule resolution :premises (t2619 t2620))
% 32.25/32.47 (step t2622 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))))) :rule contraction :premises (t2621))
% 32.25/32.47 (step t2623 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule implies :premises (t2622))
% 32.25/32.47 (step t2624 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10)))) :rule resolution :premises (t2606 t2623))
% 32.25/32.47 (step t2625 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t2624))
% 32.25/32.47 (step t2626 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.25/32.47 (step t2627 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2628)
% 32.25/32.47 (assume t2628.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t2628.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.47 (assume t2628.a2 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))
% 32.25/32.47 (assume t2628.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.25/32.47 (assume t2628.a4 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.47 (assume t2628.a5 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.47 (step t2628.t1 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2628.t2)
% 32.25/32.47 (assume t2628.t2.a0 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.25/32.47 (assume t2628.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.47 (assume t2628.t2.a2 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.25/32.47 (assume t2628.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t2628.t2.a4 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.47 (assume t2628.t2.a5 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))
% 32.25/32.47 (step t2628.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11)) :rule symm :premises (t2628.t2.a5))
% 32.25/32.47 (step t2628.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.h5 tptp.e11))) :rule cong :premises (t2628.t2.t1))
% 32.25/32.47 (step t2628.t2.t3 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t2628.t2.a4))
% 32.25/32.47 (step t2628.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t2628.t2.a3))
% 32.25/32.47 (step t2628.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t2628.t2.a2))
% 32.25/32.47 (step t2628.t2.t6 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t2628.t2.t5))
% 32.25/32.47 (step t2628.t2.t7 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t2628.t2.a1))
% 32.25/32.47 (step t2628.t2.t8 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2628.t2.t7))
% 32.25/32.47 (step t2628.t2.t9 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2628.t2.a0))
% 32.25/32.47 (step t2628.t2.t10 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t2628.t2.t9))
% 32.25/32.47 (step t2628.t2.t11 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t2628.t2.t8 t2628.t2.t10))
% 32.25/32.47 (step t2628.t2.t12 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule cong :premises (t2628.t2.t11 t2628.t2.t11))
% 32.25/32.47 (step t2628.t2.t13 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule trans :premises (t2628.t2.t2 t2628.t2.t3 t2628.t2.t4 t2628.t2.t6 t2628.t2.t12))
% 32.25/32.47 (step t2628.t2 (cl (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t2628.t2.a0 t2628.t2.a1 t2628.t2.a2 t2628.t2.a3 t2628.t2.a4 t2628.t2.a5))
% 32.25/32.47 (step t2628.t3 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.47 (step t2628.t4 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t2628.t5 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.25/32.47 (step t2628.t6 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2628.t7 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2628.t8 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.25/32.47 (step t2628.t9 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t2628.t2 t2628.t3 t2628.t4 t2628.t5 t2628.t6 t2628.t7 t2628.t8))
% 32.25/32.47 (step t2628.t10 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule reordering :premises (t2628.t9))
% 32.25/32.47 (step t2628.t11 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule contraction :premises (t2628.t10))
% 32.25/32.47 (step t2628.t12 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule resolution :premises (t2628.t1 t2628.t11))
% 32.25/32.47 (step t2628.t13 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.25/32.47 (step t2628.t14 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule resolution :premises (t2628.t12 t2628.t13))
% 32.25/32.47 (step t2628.t15 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule contraction :premises (t2628.t14))
% 32.25/32.47 (step t2628.t16 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule implies :premises (t2628.t15))
% 32.25/32.47 (step t2628.t17 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule and_neg)
% 32.25/32.47 (step t2628.t18 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t2628.t17 t2628.a5 t2628.a1 t2628.a3 t2628.a0 t2628.a4 t2628.a2))
% 32.25/32.47 (step t2628.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule resolution :premises (t2628.t16 t2628.t18))
% 32.25/32.47 (step t2628 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t2628.a0 t2628.a1 t2628.a2 t2628.a3 t2628.a4 t2628.a5))
% 32.25/32.47 (step t2629 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2630 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t2631 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.25/32.47 (step t2632 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.25/32.47 (step t2633 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2634 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.25/32.47 (step t2635 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t2628 t2629 t2630 t2631 t2632 t2633 t2634))
% 32.25/32.47 (step t2636 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule reordering :premises (t2635))
% 32.25/32.47 (step t2637 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule contraction :premises (t2636))
% 32.25/32.47 (step t2638 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule resolution :premises (t2627 t2637))
% 32.25/32.47 (step t2639 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.25/32.47 (step t2640 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule resolution :premises (t2638 t2639))
% 32.25/32.47 (step t2641 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))))) :rule contraction :premises (t2640))
% 32.25/32.47 (step t2642 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule implies :premises (t2641))
% 32.25/32.47 (step t2643 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13)))) :rule resolution :premises (t2626 t2642))
% 32.25/32.47 (step t2644 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t2643))
% 32.25/32.47 (step t2645 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule and_neg)
% 32.25/32.47 (step t2646 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2647)
% 32.25/32.47 (assume t2647.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.47 (assume t2647.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t2647.a2 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.47 (assume t2647.a3 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))
% 32.25/32.47 (assume t2647.a4 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.47 (assume t2647.a5 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.47 (step t2647.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2647.t2)
% 32.25/32.47 (assume t2647.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.25/32.47 (assume t2647.t2.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.47 (assume t2647.t2.a2 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))
% 32.25/32.47 (assume t2647.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t2647.t2.a4 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.25/32.47 (assume t2647.t2.a5 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))
% 32.25/32.47 (step t2647.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11)) :rule symm :premises (t2647.t2.a5))
% 32.25/32.47 (step t2647.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.h5 tptp.e11))) :rule cong :premises (t2647.t2.t1))
% 32.25/32.47 (step t2647.t2.t3 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t2647.t2.a4))
% 32.25/32.47 (step t2647.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t2647.t2.a3))
% 32.25/32.47 (step t2647.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21)) :rule symm :premises (t2647.t2.a2))
% 32.25/32.47 (step t2647.t2.t6 (cl (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t2647.t2.t5))
% 32.25/32.47 (step t2647.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t2647.t2.a1))
% 32.25/32.47 (step t2647.t2.t8 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t2647.t2.t7))
% 32.25/32.47 (step t2647.t2.t9 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t2647.t2.a0))
% 32.25/32.47 (step t2647.t2.t10 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t2647.t2.t9))
% 32.25/32.47 (step t2647.t2.t11 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t2647.t2.t8 t2647.t2.t10))
% 32.25/32.47 (step t2647.t2.t12 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule cong :premises (t2647.t2.t11 t2647.t2.t11))
% 32.25/32.47 (step t2647.t2.t13 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule trans :premises (t2647.t2.t2 t2647.t2.t3 t2647.t2.t4 t2647.t2.t6 t2647.t2.t12))
% 32.25/32.47 (step t2647.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t2647.t2.a0 t2647.t2.a1 t2647.t2.a2 t2647.t2.a3 t2647.t2.a4 t2647.t2.a5))
% 32.25/32.47 (step t2647.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.47 (step t2647.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2647.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.25/32.47 (step t2647.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2647.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2647.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.47 (step t2647.t9 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t2647.t2 t2647.t3 t2647.t4 t2647.t5 t2647.t6 t2647.t7 t2647.t8))
% 32.25/32.47 (step t2647.t10 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule reordering :premises (t2647.t9))
% 32.25/32.47 (step t2647.t11 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule contraction :premises (t2647.t10))
% 32.25/32.47 (step t2647.t12 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule resolution :premises (t2647.t1 t2647.t11))
% 32.25/32.47 (step t2647.t13 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2647.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule resolution :premises (t2647.t12 t2647.t13))
% 32.25/32.47 (step t2647.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule contraction :premises (t2647.t14))
% 32.25/32.47 (step t2647.t16 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule implies :premises (t2647.t15))
% 32.25/32.47 (step t2647.t17 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule and_neg)
% 32.25/32.47 (step t2647.t18 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t2647.t17 t2647.a4 t2647.a0 t2647.a3 t2647.a1 t2647.a5 t2647.a2))
% 32.25/32.47 (step t2647.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule resolution :premises (t2647.t16 t2647.t18))
% 32.25/32.47 (step t2647 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t2647.a0 t2647.a1 t2647.a2 t2647.a3 t2647.a4 t2647.a5))
% 32.25/32.47 (step t2648 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2649 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2650 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.25/32.47 (step t2651 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.25/32.47 (step t2652 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.25/32.47 (step t2653 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2654 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))))) :rule resolution :premises (t2647 t2648 t2649 t2650 t2651 t2652 t2653))
% 32.25/32.47 (step t2655 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule reordering :premises (t2654))
% 32.25/32.47 (step t2656 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule contraction :premises (t2655))
% 32.25/32.47 (step t2657 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule resolution :premises (t2646 t2656))
% 32.25/32.47 (step t2658 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2659 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule resolution :premises (t2657 t2658))
% 32.25/32.47 (step t2660 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))))) :rule contraction :premises (t2659))
% 32.25/32.47 (step t2661 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule implies :premises (t2660))
% 32.25/32.47 (step t2662 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10)))) :rule resolution :premises (t2645 t2661))
% 32.25/32.47 (step t2663 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule reordering :premises (t2662))
% 32.25/32.47 (step t2664 (cl (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e10))) :rule or :premises (t1411))
% 32.25/32.47 (step t2665 (cl (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) :rule or :premises (t1454))
% 32.25/32.47 (step t2666 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) :rule resolution :premises (t2604 t1588 t1565 t1564 t864 t865 t1537 t1567 t1589 t1609 t1626 t1644 t1662 t1681 t1699 t1701 t2605 t2625 t1588 t1565 t1564 t864 t865 t2644 t1588 t1566 t864 t461 t2663 t1566 t1565 t461 t865 t1157 t767 t1361 t1381 t1382 t2664 t1453 t2665 t1492))
% 32.25/32.47 (step t2667 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) :rule contraction :premises (t2666))
% 32.25/32.47 (step t2668 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e10))) :rule or :premises (t1495))
% 32.25/32.47 (step t2669 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.47 (step t2670 (cl (= (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t2671 (cl (not (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule equiv1 :premises (t2670))
% 32.25/32.47 (step t2672 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))))) :rule all_simplify)
% 32.25/32.47 (step t2673 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule refl)
% 32.25/32.47 (step t2674 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.25/32.47 (step t2675 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t2673 t2674))
% 32.25/32.47 (step t2676 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.47 (step t2677 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) true)) :rule trans :premises (t2675 t2676))
% 32.25/32.47 (step t2678 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) true)) :rule trans :premises (t2672 t2677))
% 32.25/32.47 (step t2679 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2671 t2678))
% 32.25/32.47 (step t2680 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule refl)
% 32.25/32.47 (step t2681 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))))) :rule cong :premises (t2127 t1115 t2679 t2680))
% 32.25/32.47 (step t2682 (cl (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule and_neg)
% 32.25/32.47 (step t2683 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2684)
% 32.25/32.47 (assume t2684.a0 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.25/32.47 (assume t2684.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t2684.a2 (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))
% 32.25/32.47 (step t2684.t1 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2684.t2)
% 32.25/32.47 (assume t2684.t2.a0 (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))
% 32.25/32.47 (assume t2684.t2.a1 (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))
% 32.25/32.47 (step t2684.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) false) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t2684.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) false)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule equiv1 :premises (t2684.t2.t1))
% 32.25/32.47 (step t2684.t2.t3 (cl (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11)) :rule symm :premises (t2684.t2.a1))
% 32.25/32.47 (step t2684.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule symm :premises (t2684.t2.t3))
% 32.25/32.47 (step t2684.t2.t5 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) :rule refl)
% 32.25/32.47 (step t2684.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule cong :premises (t2684.t2.t4 t2684.t2.t5))
% 32.25/32.47 (step t2684.t2.t7 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) false) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t2684.t2.t8 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv2 :premises (t2684.t2.t7))
% 32.25/32.47 (step t2684.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) :rule not_not)
% 32.25/32.47 (step t2684.t2.t10 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) false) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t2684.t2.t8 t2684.t2.t9))
% 32.25/32.47 (step t2684.t2.t11 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) false)) :rule resolution :premises (t2684.t2.t10 t2684.t2.a0))
% 32.25/32.47 (step t2684.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) false)) :rule trans :premises (t2684.t2.t6 t2684.t2.t11))
% 32.25/32.47 (step t2684.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2684.t2.t2 t2684.t2.t12))
% 32.25/32.47 (step t2684.t2 (cl (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule subproof :discharge (t2684.t2.a0 t2684.t2.a1))
% 32.25/32.47 (step t2684.t3 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t2684.t4 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2684.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t2684.t2 t2684.t3 t2684.t4))
% 32.25/32.47 (step t2684.t6 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule reordering :premises (t2684.t5))
% 32.25/32.47 (step t2684.t7 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t2684.t6))
% 32.25/32.47 (step t2684.t8 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2684.t1 t2684.t7))
% 32.25/32.47 (step t2684.t9 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2684.t10 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t2684.t8 t2684.t9))
% 32.25/32.47 (step t2684.t11 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t2684.t10))
% 32.25/32.47 (step t2684.t12 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies :premises (t2684.t11))
% 32.25/32.47 (step t2684.t13 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule and_neg)
% 32.25/32.47 (step t2684.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2684.t15)
% 32.25/32.47 (assume t2684.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t2684.t15.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.25/32.47 (step t2684.t15.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11)) :rule symm :premises (t2684.t15.a1))
% 32.25/32.47 (step t2684.t15.t2 (cl (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule symm :premises (t2684.t15.t1))
% 32.25/32.47 (step t2684.t15.t3 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2684.t15.a0))
% 32.25/32.47 (step t2684.t15.t4 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.25/32.47 (step t2684.t15.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e11) (tptp.op1 tptp.e12 tptp.e11))) :rule cong :premises (t2684.t15.t3 t2684.t15.t4))
% 32.25/32.47 (step t2684.t15.t6 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule trans :premises (t2684.t15.t2 t2684.t15.t5))
% 32.25/32.47 (step t2684.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule subproof :discharge (t2684.t15.a0 t2684.t15.a1))
% 32.25/32.47 (step t2684.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t2684.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2684.t18 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule resolution :premises (t2684.t15 t2684.t16 t2684.t17))
% 32.25/32.47 (step t2684.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule reordering :premises (t2684.t18))
% 32.25/32.47 (step t2684.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule contraction :premises (t2684.t19))
% 32.25/32.47 (step t2684.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule resolution :premises (t2684.t14 t2684.t20))
% 32.25/32.47 (step t2684.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg2)
% 32.25/32.47 (step t2684.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2684.t21 t2684.t22))
% 32.25/32.47 (step t2684.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule contraction :premises (t2684.t23))
% 32.25/32.47 (step t2684.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule implies :premises (t2684.t24))
% 32.25/32.47 (step t2684.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule and_neg)
% 32.25/32.47 (step t2684.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule resolution :premises (t2684.t26 t2684.a1 t2684.a0))
% 32.25/32.47 (step t2684.t28 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11))) :rule resolution :premises (t2684.t25 t2684.t27))
% 32.25/32.47 (step t2684.t29 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t2684.t13 t2684.a2 t2684.t28))
% 32.25/32.47 (step t2684.t30 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2684.t12 t2684.t29))
% 32.25/32.47 (step t2684 (cl (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule subproof :discharge (t2684.a0 t2684.a1 t2684.a2))
% 32.25/32.47 (step t2685 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2686 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t2687 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t2688 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule resolution :premises (t2684 t2685 t2686 t2687))
% 32.25/32.47 (step t2689 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule reordering :premises (t2688))
% 32.25/32.47 (step t2690 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t2689))
% 32.25/32.47 (step t2691 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2683 t2690))
% 32.25/32.47 (step t2692 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2693 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t2691 t2692))
% 32.25/32.47 (step t2694 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t2693))
% 32.25/32.47 (step t2695 (cl (not (and (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies :premises (t2694))
% 32.25/32.47 (step t2696 (cl (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t2682 t2695))
% 32.25/32.47 (step t2697 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule or_neg)
% 32.25/32.47 (step t2698 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.47 (step t2699 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule or_neg)
% 32.25/32.47 (step t2700 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule or_neg)
% 32.25/32.47 (step t2701 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t2696 t2697 t2698 t2699 t2700))
% 32.25/32.47 (step t2702 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t2701))
% 32.25/32.47 (step t2703 (cl (or (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t2669 t2681 t2702))
% 32.25/32.47 (step t2704 (cl (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)))) :rule or :premises (t2703))
% 32.25/32.47 (step t2705 (cl (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2704))
% 32.25/32.47 (step t2706 (cl (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.47 (step t2707 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.47 (step t2708 (cl (= (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t2709 (cl (not (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) :rule equiv1 :premises (t2708))
% 32.25/32.47 (step t2710 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))))) :rule all_simplify)
% 32.25/32.47 (step t2711 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) :rule refl)
% 32.25/32.47 (step t2712 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.25/32.47 (step t2713 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t2711 t2712))
% 32.25/32.47 (step t2714 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.47 (step t2715 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) true)) :rule trans :premises (t2713 t2714))
% 32.25/32.47 (step t2716 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) true)) :rule trans :premises (t2710 t2715))
% 32.25/32.47 (step t2717 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t2709 t2716))
% 32.25/32.47 (step t2718 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule refl)
% 32.25/32.47 (step t2719 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))))) :rule cong :premises (t1113 t1115 t2717 t2718))
% 32.25/32.47 (step t2720 (cl (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) :rule and_neg)
% 32.25/32.47 (step t2721 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2722)
% 32.25/32.47 (assume t2722.a0 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.25/32.47 (assume t2722.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t2722.a2 (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))
% 32.25/32.47 (step t2722.t1 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2722.t2)
% 32.25/32.47 (assume t2722.t2.a0 (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))
% 32.25/32.47 (assume t2722.t2.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))
% 32.25/32.47 (step t2722.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) false) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t2722.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) false)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule equiv1 :premises (t2722.t2.t1))
% 32.25/32.47 (step t2722.t2.t3 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) :rule symm :premises (t2722.t2.a1))
% 32.25/32.47 (step t2722.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t2722.t2.t3))
% 32.25/32.47 (step t2722.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule refl)
% 32.25/32.47 (step t2722.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) :rule cong :premises (t2722.t2.t4 t2722.t2.t5))
% 32.25/32.47 (step t2722.t2.t7 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) false) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t2722.t2.t8 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv2 :premises (t2722.t2.t7))
% 32.25/32.47 (step t2722.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) :rule not_not)
% 32.25/32.47 (step t2722.t2.t10 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) false) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t2722.t2.t8 t2722.t2.t9))
% 32.25/32.47 (step t2722.t2.t11 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) false)) :rule resolution :premises (t2722.t2.t10 t2722.t2.a0))
% 32.25/32.47 (step t2722.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) false)) :rule trans :premises (t2722.t2.t6 t2722.t2.t11))
% 32.25/32.47 (step t2722.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t2722.t2.t2 t2722.t2.t12))
% 32.25/32.47 (step t2722.t2 (cl (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t2722.t2.a0 t2722.t2.a1))
% 32.25/32.47 (step t2722.t3 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t2722.t4 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.25/32.47 (step t2722.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t2722.t2 t2722.t3 t2722.t4))
% 32.25/32.47 (step t2722.t6 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t2722.t5))
% 32.25/32.47 (step t2722.t7 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t2722.t6))
% 32.25/32.47 (step t2722.t8 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t2722.t1 t2722.t7))
% 32.25/32.47 (step t2722.t9 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2722.t10 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t2722.t8 t2722.t9))
% 32.25/32.47 (step t2722.t11 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t2722.t10))
% 32.25/32.47 (step t2722.t12 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t2722.t11))
% 32.25/32.47 (step t2722.t13 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule and_neg)
% 32.25/32.47 (step t2722.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2722.t15)
% 32.25/32.47 (assume t2722.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t2722.t15.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.25/32.47 (step t2722.t15.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t2722.t15.a1))
% 32.25/32.47 (step t2722.t15.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t2722.t15.t1))
% 32.25/32.47 (step t2722.t15.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.25/32.47 (step t2722.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2722.t15.a0))
% 32.25/32.47 (step t2722.t15.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e12))) :rule cong :premises (t2722.t15.t3 t2722.t15.t4))
% 32.25/32.47 (step t2722.t15.t6 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t2722.t15.t2 t2722.t15.t5))
% 32.25/32.47 (step t2722.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule subproof :discharge (t2722.t15.a0 t2722.t15.a1))
% 32.25/32.47 (step t2722.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t2722.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.25/32.47 (step t2722.t18 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t2722.t15 t2722.t16 t2722.t17))
% 32.25/32.47 (step t2722.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule reordering :premises (t2722.t18))
% 32.25/32.47 (step t2722.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule contraction :premises (t2722.t19))
% 32.25/32.47 (step t2722.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t2722.t14 t2722.t20))
% 32.25/32.47 (step t2722.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg2)
% 32.25/32.47 (step t2722.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t2722.t21 t2722.t22))
% 32.25/32.47 (step t2722.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t2722.t23))
% 32.25/32.47 (step t2722.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule implies :premises (t2722.t24))
% 32.25/32.47 (step t2722.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.25/32.47 (step t2722.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t2722.t26 t2722.a1 t2722.a0))
% 32.25/32.47 (step t2722.t28 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t2722.t25 t2722.t27))
% 32.25/32.47 (step t2722.t29 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t2722.t13 t2722.a2 t2722.t28))
% 32.25/32.47 (step t2722.t30 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t2722.t12 t2722.t29))
% 32.25/32.47 (step t2722 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t2722.a0 t2722.a1 t2722.a2))
% 32.25/32.47 (step t2723 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.25/32.47 (step t2724 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t2725 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t2726 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))))) :rule resolution :premises (t2722 t2723 t2724 t2725))
% 32.25/32.47 (step t2727 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t2726))
% 32.25/32.47 (step t2728 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t2727))
% 32.25/32.47 (step t2729 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t2721 t2728))
% 32.25/32.47 (step t2730 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2731 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t2729 t2730))
% 32.25/32.47 (step t2732 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t2731))
% 32.25/32.47 (step t2733 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t2732))
% 32.25/32.47 (step t2734 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t2720 t2733))
% 32.25/32.47 (step t2735 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.25/32.47 (step t2736 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.47 (step t2737 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))))) :rule or_neg)
% 32.25/32.47 (step t2738 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule or_neg)
% 32.25/32.47 (step t2739 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t2734 t2735 t2736 t2737 t2738))
% 32.25/32.47 (step t2740 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t2739))
% 32.25/32.47 (step t2741 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t2707 t2719 t2740))
% 32.25/32.47 (step t2742 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule or :premises (t2741))
% 32.25/32.47 (step t2743 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2742))
% 32.25/32.47 (step t2744 (cl (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.47 (step t2745 (cl (not (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))))) (not (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_pos2)
% 32.25/32.47 (step t2746 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.47 (step t2747 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule equiv1 :premises (t2746))
% 32.25/32.47 (step t2748 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))))) :rule all_simplify)
% 32.25/32.47 (step t2749 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule refl)
% 32.25/32.47 (step t2750 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.25/32.47 (step t2751 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t2749 t2750))
% 32.25/32.47 (step t2752 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) true)) :rule all_simplify)
% 32.25/32.47 (step t2753 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) true)) :rule trans :premises (t2751 t2752))
% 32.25/32.47 (step t2754 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) true)) :rule trans :premises (t2748 t2753))
% 32.25/32.47 (step t2755 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t2747 t2754))
% 32.25/32.47 (step t2756 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule refl)
% 32.25/32.47 (step t2757 (cl (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))))) :rule cong :premises (t1952 t1111 t1953 t2755 t2756))
% 32.25/32.47 (step t2758 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule and_neg)
% 32.25/32.47 (step t2759 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2760)
% 32.25/32.47 (assume t2760.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.47 (assume t2760.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.47 (assume t2760.a2 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.25/32.47 (assume t2760.a3 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))
% 32.25/32.47 (step t2760.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2760.t2)
% 32.25/32.47 (assume t2760.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))
% 32.25/32.47 (assume t2760.t2.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.47 (assume t2760.t2.a2 (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))
% 32.25/32.47 (assume t2760.t2.a3 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.25/32.47 (step t2760.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) false) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.47 (step t2760.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) false)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv1 :premises (t2760.t2.t1))
% 32.25/32.47 (step t2760.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t2760.t2.a1))
% 32.25/32.47 (step t2760.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t2760.t2.t3))
% 32.25/32.47 (step t2760.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10)) :rule symm :premises (t2760.t2.a3))
% 32.25/32.47 (step t2760.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t2760.t2.a2))
% 32.25/32.47 (step t2760.t2.t7 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule symm :premises (t2760.t2.t6))
% 32.25/32.47 (step t2760.t2.t8 (cl (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t2760.t2.t5 t2760.t2.t7))
% 32.25/32.47 (step t2760.t2.t9 (cl (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule cong :premises (t2760.t2.t4 t2760.t2.t8))
% 32.25/32.47 (step t2760.t2.t10 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) false) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.47 (step t2760.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv2 :premises (t2760.t2.t10))
% 32.25/32.47 (step t2760.t2.t12 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule not_not)
% 32.25/32.47 (step t2760.t2.t13 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) false) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t2760.t2.t11 t2760.t2.t12))
% 32.25/32.47 (step t2760.t2.t14 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) false)) :rule resolution :premises (t2760.t2.t13 t2760.t2.a0))
% 32.25/32.47 (step t2760.t2.t15 (cl (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) false)) :rule trans :premises (t2760.t2.t9 t2760.t2.t14))
% 32.25/32.47 (step t2760.t2.t16 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t2760.t2.t2 t2760.t2.t15))
% 32.25/32.47 (step t2760.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule subproof :discharge (t2760.t2.a0 t2760.t2.a1 t2760.t2.a2 t2760.t2.a3))
% 32.25/32.47 (step t2760.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule and_pos)
% 32.25/32.47 (step t2760.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2760.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2760.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2760.t7 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t2760.t2 t2760.t3 t2760.t4 t2760.t5 t2760.t6))
% 32.25/32.47 (step t2760.t8 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule reordering :premises (t2760.t7))
% 32.25/32.47 (step t2760.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule contraction :premises (t2760.t8))
% 32.25/32.47 (step t2760.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t2760.t1 t2760.t9))
% 32.25/32.47 (step t2760.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg2)
% 32.25/32.47 (step t2760.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t2760.t10 t2760.t11))
% 32.25/32.47 (step t2760.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t2760.t12))
% 32.25/32.47 (step t2760.t14 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies :premises (t2760.t13))
% 32.25/32.47 (step t2760.t15 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule and_neg)
% 32.25/32.47 (step t2760.t16 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2760.t17)
% 32.25/32.47 (assume t2760.t17.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.47 (assume t2760.t17.a1 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.25/32.47 (step t2760.t17.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t2760.t17.a1))
% 32.25/32.47 (step t2760.t17.t2 (cl (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule symm :premises (t2760.t17.t1))
% 32.25/32.47 (step t2760.t17.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t2760.t17.a0))
% 32.25/32.47 (step t2760.t17.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t2760.t17.t3))
% 32.25/32.47 (step t2760.t17.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t2760.t17.t4))
% 32.25/32.47 (step t2760.t17.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.47 (step t2760.t17.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule cong :premises (t2760.t17.t5 t2760.t17.t6))
% 32.25/32.47 (step t2760.t17.t8 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t2760.t17.t2 t2760.t17.t7))
% 32.25/32.47 (step t2760.t17 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule subproof :discharge (t2760.t17.a0 t2760.t17.a1))
% 32.25/32.47 (step t2760.t18 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2760.t19 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2760.t20 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule resolution :premises (t2760.t17 t2760.t18 t2760.t19))
% 32.25/32.47 (step t2760.t21 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule reordering :premises (t2760.t20))
% 32.25/32.47 (step t2760.t22 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule contraction :premises (t2760.t21))
% 32.25/32.47 (step t2760.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t2760.t16 t2760.t22))
% 32.25/32.47 (step t2760.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg2)
% 32.25/32.47 (step t2760.t25 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t2760.t23 t2760.t24))
% 32.25/32.47 (step t2760.t26 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t2760.t25))
% 32.25/32.47 (step t2760.t27 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule implies :premises (t2760.t26))
% 32.25/32.47 (step t2760.t28 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule and_neg)
% 32.25/32.47 (step t2760.t29 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule resolution :premises (t2760.t28 t2760.a1 t2760.a0))
% 32.25/32.47 (step t2760.t30 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t2760.t27 t2760.t29))
% 32.25/32.47 (step t2760.t31 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t2760.t15 t2760.a3 t2760.a1 t2760.t30 t2760.a2))
% 32.25/32.47 (step t2760.t32 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t2760.t14 t2760.t31))
% 32.25/32.47 (step t2760 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule subproof :discharge (t2760.a0 t2760.a1 t2760.a2 t2760.a3))
% 32.25/32.47 (step t2761 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2762 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2763 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2764 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule and_pos)
% 32.25/32.47 (step t2765 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))))) :rule resolution :premises (t2760 t2761 t2762 t2763 t2764))
% 32.25/32.47 (step t2766 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule reordering :premises (t2765))
% 32.25/32.47 (step t2767 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule contraction :premises (t2766))
% 32.25/32.47 (step t2768 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t2759 t2767))
% 32.25/32.47 (step t2769 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg2)
% 32.25/32.47 (step t2770 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t2768 t2769))
% 32.25/32.47 (step t2771 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t2770))
% 32.25/32.47 (step t2772 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies :premises (t2771))
% 32.25/32.47 (step t2773 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t2758 t2772))
% 32.25/32.47 (step t2774 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule or_neg)
% 32.25/32.47 (step t2775 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.47 (step t2776 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule or_neg)
% 32.25/32.47 (step t2777 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))))) :rule or_neg)
% 32.25/32.47 (step t2778 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule or_neg)
% 32.25/32.47 (step t2779 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t2773 t2774 t2775 t2776 t2777 t2778))
% 32.25/32.47 (step t2780 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t2779))
% 32.25/32.47 (step t2781 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t2745 t2757 t2780))
% 32.25/32.47 (step t2782 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)))) :rule or :premises (t2781))
% 32.25/32.47 (step t2783 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule reordering :premises (t2782))
% 32.25/32.47 (step t2784 (cl (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule and :premises (t1360))
% 32.25/32.47 (step t2785 (cl (not (= (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))))) (not (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.47 (step t2786 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t2787 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) :rule equiv1 :premises (t2786))
% 32.25/32.47 (step t2788 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))))) :rule all_simplify)
% 32.25/32.47 (step t2789 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) :rule refl)
% 32.25/32.47 (step t2790 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.25/32.47 (step t2791 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t2789 t2790))
% 32.25/32.47 (step t2792 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.47 (step t2793 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) true)) :rule trans :premises (t2791 t2792))
% 32.25/32.47 (step t2794 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) true)) :rule trans :premises (t2788 t2793))
% 32.25/32.47 (step t2795 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t2787 t2794))
% 32.25/32.47 (step t2796 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule refl)
% 32.25/32.47 (step t2797 (cl (= (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))))) :rule cong :premises (t1953 t2795 t2796))
% 32.25/32.47 (step t2798 (cl (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) :rule and_neg)
% 32.25/32.47 (step t2799 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2800)
% 32.25/32.47 (assume t2800.a0 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.25/32.47 (assume t2800.a1 (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))
% 32.25/32.47 (step t2800.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2800.t2)
% 32.25/32.47 (assume t2800.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))
% 32.25/32.47 (assume t2800.t2.a1 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.25/32.47 (step t2800.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) false) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t2800.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) false)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule equiv1 :premises (t2800.t2.t1))
% 32.25/32.47 (step t2800.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10)) :rule symm :premises (t2800.t2.a1))
% 32.25/32.47 (step t2800.t2.t4 (cl (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule symm :premises (t2800.t2.t3))
% 32.25/32.47 (step t2800.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) :rule refl)
% 32.25/32.47 (step t2800.t2.t6 (cl (= (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) :rule cong :premises (t2800.t2.t4 t2800.t2.t5))
% 32.25/32.47 (step t2800.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) false) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t2800.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv2 :premises (t2800.t2.t7))
% 32.25/32.47 (step t2800.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) :rule not_not)
% 32.25/32.47 (step t2800.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) false) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t2800.t2.t8 t2800.t2.t9))
% 32.25/32.47 (step t2800.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) false)) :rule resolution :premises (t2800.t2.t10 t2800.t2.a0))
% 32.25/32.47 (step t2800.t2.t12 (cl (= (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) false)) :rule trans :premises (t2800.t2.t6 t2800.t2.t11))
% 32.25/32.47 (step t2800.t2.t13 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t2800.t2.t2 t2800.t2.t12))
% 32.25/32.47 (step t2800.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t2800.t2.a0 t2800.t2.a1))
% 32.25/32.47 (step t2800.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t2800.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2800.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t2800.t2 t2800.t3 t2800.t4))
% 32.25/32.47 (step t2800.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t2800.t5))
% 32.25/32.47 (step t2800.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t2800.t6))
% 32.25/32.47 (step t2800.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t2800.t1 t2800.t7))
% 32.25/32.47 (step t2800.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2800.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t2800.t8 t2800.t9))
% 32.25/32.47 (step t2800.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t2800.t10))
% 32.25/32.47 (step t2800.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t2800.t11))
% 32.25/32.47 (step t2800.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule and_neg)
% 32.25/32.47 (step t2800.t14 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t2800.t13 t2800.a1 t2800.a0))
% 32.25/32.47 (step t2800.t15 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t2800.t12 t2800.t14))
% 32.25/32.47 (step t2800 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t2800.a0 t2800.a1))
% 32.25/32.47 (step t2801 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t2802 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t2803 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))))) :rule resolution :premises (t2800 t2801 t2802))
% 32.25/32.47 (step t2804 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t2803))
% 32.25/32.47 (step t2805 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t2804))
% 32.25/32.47 (step t2806 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t2799 t2805))
% 32.25/32.47 (step t2807 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t2808 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t2806 t2807))
% 32.25/32.47 (step t2809 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t2808))
% 32.25/32.47 (step t2810 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t2809))
% 32.25/32.47 (step t2811 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t2798 t2810))
% 32.25/32.47 (step t2812 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule or_neg)
% 32.25/32.47 (step t2813 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))))) :rule or_neg)
% 32.25/32.47 (step t2814 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule or_neg)
% 32.25/32.47 (step t2815 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t2811 t2812 t2813 t2814))
% 32.25/32.47 (step t2816 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t2815))
% 32.25/32.47 (step t2817 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t2785 t2797 t2816))
% 32.25/32.47 (step t2818 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)))) :rule or :premises (t2817))
% 32.25/32.47 (step t2819 (cl (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule reordering :premises (t2818))
% 32.25/32.47 (step t2820 (cl (not (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.47 (step t2821 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e12 tptp.unit1)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t2667 t2668 t1533 t2705 t2706 t2743 t1382 t2744 t2783 t2784 t2819 t2820))
% 32.25/32.47 (step t2822 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e12 tptp.unit1)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule contraction :premises (t2821))
% 32.25/32.47 (step t2823 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t2000))
% 32.25/32.47 (step t2824 (cl (not (= (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))))) (not (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_pos2)
% 32.25/32.47 (step t2825 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule refl)
% 32.25/32.47 (step t2826 (cl (= (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))))) :rule cong :premises (t1114 t1115 t1964 t2825))
% 32.25/32.47 (step t2827 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule and_neg)
% 32.25/32.47 (step t2828 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2829)
% 32.25/32.47 (assume t2829.a0 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.47 (assume t2829.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t2829.a2 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.25/32.47 (step t2829.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2829.t2)
% 32.25/32.47 (assume t2829.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.25/32.47 (assume t2829.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))
% 32.25/32.47 (step t2829.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) false) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.47 (step t2829.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) false)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv1 :premises (t2829.t2.t1))
% 32.25/32.47 (step t2829.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule symm :premises (t2829.t2.a1))
% 32.25/32.47 (step t2829.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t2829.t2.t3))
% 32.25/32.47 (step t2829.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule refl)
% 32.25/32.47 (step t2829.t2.t6 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule cong :premises (t2829.t2.t4 t2829.t2.t5))
% 32.25/32.47 (step t2829.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.25/32.47 (step t2829.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv2 :premises (t2829.t2.t7))
% 32.25/32.47 (step t2829.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule not_not)
% 32.25/32.47 (step t2829.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t2829.t2.t8 t2829.t2.t9))
% 32.25/32.47 (step t2829.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false)) :rule resolution :premises (t2829.t2.t10 t2829.t2.a0))
% 32.25/32.47 (step t2829.t2.t12 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) false)) :rule trans :premises (t2829.t2.t6 t2829.t2.t11))
% 32.25/32.47 (step t2829.t2.t13 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2829.t2.t2 t2829.t2.t12))
% 32.25/32.47 (step t2829.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule subproof :discharge (t2829.t2.a0 t2829.t2.a1))
% 32.25/32.47 (step t2829.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.25/32.47 (step t2829.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.25/32.47 (step t2829.t5 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t2829.t2 t2829.t3 t2829.t4))
% 32.25/32.47 (step t2829.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule reordering :premises (t2829.t5))
% 32.25/32.47 (step t2829.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t2829.t6))
% 32.25/32.47 (step t2829.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2829.t1 t2829.t7))
% 32.25/32.47 (step t2829.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg2)
% 32.25/32.47 (step t2829.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t2829.t8 t2829.t9))
% 32.25/32.47 (step t2829.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t2829.t10))
% 32.25/32.47 (step t2829.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies :premises (t2829.t11))
% 32.25/32.47 (step t2829.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule and_neg)
% 32.25/32.47 (step t2829.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2829.t15)
% 32.25/32.47 (assume t2829.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t2829.t15.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.25/32.47 (step t2829.t15.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t2829.t15.a1))
% 32.25/32.47 (step t2829.t15.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t2829.t15.t1))
% 32.25/32.47 (step t2829.t15.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.47 (step t2829.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2829.t15.a0))
% 32.25/32.47 (step t2829.t15.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e12))) :rule cong :premises (t2829.t15.t3 t2829.t15.t4))
% 32.25/32.47 (step t2829.t15.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t2829.t15.t2 t2829.t15.t5))
% 32.25/32.47 (step t2829.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule subproof :discharge (t2829.t15.a0 t2829.t15.a1))
% 32.25/32.47 (step t2829.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t2829.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.47 (step t2829.t18 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t2829.t15 t2829.t16 t2829.t17))
% 32.25/32.47 (step t2829.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule reordering :premises (t2829.t18))
% 32.25/32.47 (step t2829.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t2829.t19))
% 32.25/32.47 (step t2829.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t2829.t14 t2829.t20))
% 32.25/32.47 (step t2829.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg2)
% 32.25/32.47 (step t2829.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t2829.t21 t2829.t22))
% 32.25/32.47 (step t2829.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t2829.t23))
% 32.25/32.47 (step t2829.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule implies :premises (t2829.t24))
% 32.25/32.47 (step t2829.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.25/32.47 (step t2829.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t2829.t26 t2829.a1 t2829.a0))
% 32.25/32.47 (step t2829.t28 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t2829.t25 t2829.t27))
% 32.25/32.47 (step t2829.t29 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t2829.t13 t2829.a2 t2829.t28))
% 32.25/32.47 (step t2829.t30 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2829.t12 t2829.t29))
% 32.25/32.47 (step t2829 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule subproof :discharge (t2829.a0 t2829.a1 t2829.a2))
% 32.25/32.47 (step t2830 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.25/32.47 (step t2831 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t2832 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.25/32.47 (step t2833 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t2829 t2830 t2831 t2832))
% 32.25/32.47 (step t2834 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule reordering :premises (t2833))
% 32.25/32.47 (step t2835 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t2834))
% 32.25/32.47 (step t2836 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2828 t2835))
% 32.25/32.47 (step t2837 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg2)
% 32.25/32.47 (step t2838 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t2836 t2837))
% 32.25/32.47 (step t2839 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t2838))
% 32.25/32.47 (step t2840 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies :premises (t2839))
% 32.25/32.47 (step t2841 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t2827 t2840))
% 32.25/32.47 (step t2842 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.25/32.47 (step t2843 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.47 (step t2844 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule or_neg)
% 32.25/32.47 (step t2845 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule or_neg)
% 32.25/32.47 (step t2846 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t2841 t2842 t2843 t2844 t2845))
% 32.25/32.47 (step t2847 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t2846))
% 32.25/32.47 (step t2848 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t2824 t2826 t2847))
% 32.25/32.47 (step t2849 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule or :premises (t2848))
% 32.25/32.47 (step t2850 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2849))
% 32.25/32.47 (step t2851 (cl (not (= (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))))) (not (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_pos2)
% 32.25/32.47 (step t2852 (cl (= (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true) (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.47 (step t2853 (cl (not (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule equiv1 :premises (t2852))
% 32.25/32.47 (step t2854 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))))) :rule all_simplify)
% 32.25/32.47 (step t2855 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule refl)
% 32.25/32.47 (step t2856 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.25/32.47 (step t2857 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t2855 t2856))
% 32.25/32.47 (step t2858 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) :rule all_simplify)
% 32.25/32.47 (step t2859 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) true)) :rule trans :premises (t2857 t2858))
% 32.25/32.47 (step t2860 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) :rule trans :premises (t2854 t2859))
% 32.25/32.47 (step t2861 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t2853 t2860))
% 32.25/32.47 (step t2862 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule refl)
% 32.25/32.47 (step t2863 (cl (= (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))))) :rule cong :premises (t2156 t1115 t2861 t2862))
% 32.25/32.47 (step t2864 (cl (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule and_neg)
% 32.25/32.47 (step t2865 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2866)
% 32.25/32.47 (assume t2866.a0 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.25/32.47 (assume t2866.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t2866.a2 (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))
% 32.25/32.47 (step t2866.t1 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2866.t2)
% 32.25/32.47 (assume t2866.t2.a0 (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))
% 32.25/32.47 (assume t2866.t2.a1 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))
% 32.25/32.47 (step t2866.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) false) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.47 (step t2866.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) false)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule equiv1 :premises (t2866.t2.t1))
% 32.25/32.47 (step t2866.t2.t3 (cl (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) :rule symm :premises (t2866.t2.a1))
% 32.25/32.47 (step t2866.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule symm :premises (t2866.t2.t3))
% 32.25/32.47 (step t2866.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule refl)
% 32.25/32.47 (step t2866.t2.t6 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule cong :premises (t2866.t2.t4 t2866.t2.t5))
% 32.25/32.47 (step t2866.t2.t7 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.25/32.47 (step t2866.t2.t8 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv2 :premises (t2866.t2.t7))
% 32.25/32.47 (step t2866.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule not_not)
% 32.25/32.47 (step t2866.t2.t10 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule resolution :premises (t2866.t2.t8 t2866.t2.t9))
% 32.25/32.47 (step t2866.t2.t11 (cl (= (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false)) :rule resolution :premises (t2866.t2.t10 t2866.t2.a0))
% 32.25/32.47 (step t2866.t2.t12 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) false)) :rule trans :premises (t2866.t2.t6 t2866.t2.t11))
% 32.25/32.47 (step t2866.t2.t13 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t2866.t2.t2 t2866.t2.t12))
% 32.25/32.47 (step t2866.t2 (cl (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t2866.t2.a0 t2866.t2.a1))
% 32.25/32.47 (step t2866.t3 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and_pos)
% 32.25/32.47 (step t2866.t4 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2866.t5 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t2866.t2 t2866.t3 t2866.t4))
% 32.25/32.47 (step t2866.t6 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t2866.t5))
% 32.25/32.47 (step t2866.t7 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t2866.t6))
% 32.25/32.47 (step t2866.t8 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t2866.t1 t2866.t7))
% 32.25/32.47 (step t2866.t9 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.25/32.47 (step t2866.t10 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t2866.t8 t2866.t9))
% 32.25/32.47 (step t2866.t11 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t2866.t10))
% 32.25/32.47 (step t2866.t12 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t2866.t11))
% 32.25/32.47 (step t2866.t13 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule and_neg)
% 32.25/32.47 (step t2866.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2866.t15)
% 32.25/32.47 (assume t2866.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t2866.t15.a1 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.25/32.47 (step t2866.t15.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14)) :rule symm :premises (t2866.t15.a1))
% 32.25/32.47 (step t2866.t15.t2 (cl (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule symm :premises (t2866.t15.t1))
% 32.25/32.47 (step t2866.t15.t3 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t2866.t15.a0))
% 32.25/32.47 (step t2866.t15.t4 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.47 (step t2866.t15.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e14) (tptp.op1 tptp.e12 tptp.e14))) :rule cong :premises (t2866.t15.t3 t2866.t15.t4))
% 32.25/32.47 (step t2866.t15.t6 (cl (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule trans :premises (t2866.t15.t2 t2866.t15.t5))
% 32.25/32.47 (step t2866.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule subproof :discharge (t2866.t15.a0 t2866.t15.a1))
% 32.25/32.47 (step t2866.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t2866.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2866.t18 (cl (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))))) :rule resolution :premises (t2866.t15 t2866.t16 t2866.t17))
% 32.25/32.47 (step t2866.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule reordering :premises (t2866.t18))
% 32.25/32.47 (step t2866.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule contraction :premises (t2866.t19))
% 32.25/32.47 (step t2866.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule resolution :premises (t2866.t14 t2866.t20))
% 32.25/32.47 (step t2866.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies_neg2)
% 32.25/32.47 (step t2866.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t2866.t21 t2866.t22))
% 32.25/32.47 (step t2866.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule contraction :premises (t2866.t23))
% 32.25/32.47 (step t2866.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule implies :premises (t2866.t24))
% 32.25/32.47 (step t2866.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule and_neg)
% 32.25/32.47 (step t2866.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule resolution :premises (t2866.t26 t2866.a1 t2866.a0))
% 32.25/32.47 (step t2866.t28 (cl (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14))) :rule resolution :premises (t2866.t25 t2866.t27))
% 32.25/32.47 (step t2866.t29 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t2866.t13 t2866.a2 t2866.t28))
% 32.25/32.47 (step t2866.t30 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t2866.t12 t2866.t29))
% 32.25/32.47 (step t2866 (cl (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t2866.a0 t2866.a1 t2866.a2))
% 32.25/32.47 (step t2867 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t2868 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t2869 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and_pos)
% 32.25/32.47 (step t2870 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))))) :rule resolution :premises (t2866 t2867 t2868 t2869))
% 32.25/32.47 (step t2871 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t2870))
% 32.25/32.47 (step t2872 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t2871))
% 32.25/32.47 (step t2873 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t2865 t2872))
% 32.25/32.47 (step t2874 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.25/32.47 (step t2875 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t2873 t2874))
% 32.25/32.47 (step t2876 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t2875))
% 32.25/32.47 (step t2877 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t2876))
% 32.25/32.47 (step t2878 (cl (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t2864 t2877))
% 32.25/32.47 (step t2879 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))))) :rule or_neg)
% 32.25/32.47 (step t2880 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.47 (step t2881 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))))) :rule or_neg)
% 32.25/32.47 (step t2882 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule or_neg)
% 32.25/32.47 (step t2883 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t2878 t2879 t2880 t2881 t2882))
% 32.25/32.47 (step t2884 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t2883))
% 32.25/32.47 (step t2885 (cl (or (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t2851 t2863 t2884))
% 32.25/32.47 (step t2886 (cl (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule or :premises (t2885))
% 32.25/32.47 (step t2887 (cl (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t2886))
% 32.25/32.47 (step t2888 (cl (not (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and :premises (t1360))
% 32.25/32.47 (step t2889 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e12 tptp.unit1)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1))) :rule resolution :premises (t2822 t2823 t2038 t2039 t799 t2076 t2311 t2077 t2114 t2115 t2153 t2154 t2850 t1381 t1999 t2887 t2193 t2888))
% 32.25/32.47 (step t2890 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e12 tptp.unit1)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule contraction :premises (t2889))
% 32.25/32.47 (step t2891 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e12 tptp.unit1)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) :rule resolution :premises (t2890 t767 t768 t2312))
% 32.25/32.47 (step t2892 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule reordering :premises (t2891))
% 32.25/32.47 (step t2893 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule resolution :premises (t2584 t2892))
% 32.25/32.47 (step t2894 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule contraction :premises (t2893))
% 32.25/32.47 (step t2895 (cl (or (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule and :premises (t2369))
% 32.25/32.47 (step t2896 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) :rule or :premises (t2895))
% 32.25/32.47 (step t2897 (cl (not (= (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))))) (not (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule equiv_pos2)
% 32.25/32.47 (step t2898 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule refl)
% 32.25/32.47 (step t2899 (cl (= (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))))) :rule cong :premises (t2463 t2424 t2898))
% 32.25/32.47 (step t2900 (cl (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule and_neg)
% 32.25/32.47 (step t2901 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2902)
% 32.25/32.47 (assume t2902.a0 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.47 (assume t2902.a1 (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))
% 32.25/32.47 (step t2902.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2902.t2)
% 32.25/32.47 (assume t2902.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))
% 32.25/32.47 (assume t2902.t2.a1 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.25/32.47 (step t2902.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) false) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.47 (step t2902.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) false)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule equiv1 :premises (t2902.t2.t1))
% 32.25/32.47 (step t2902.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) :rule symm :premises (t2902.t2.a1))
% 32.25/32.47 (step t2902.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t2902.t2.t3))
% 32.25/32.47 (step t2902.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) :rule refl)
% 32.25/32.47 (step t2902.t2.t6 (cl (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t2902.t2.t4 t2902.t2.t5))
% 32.25/32.47 (step t2902.t2.t7 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) false) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.47 (step t2902.t2.t8 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) :rule equiv2 :premises (t2902.t2.t7))
% 32.25/32.47 (step t2902.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) :rule not_not)
% 32.25/32.47 (step t2902.t2.t10 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) false) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) :rule resolution :premises (t2902.t2.t8 t2902.t2.t9))
% 32.25/32.47 (step t2902.t2.t11 (cl (= (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) false)) :rule resolution :premises (t2902.t2.t10 t2902.t2.a0))
% 32.25/32.47 (step t2902.t2.t12 (cl (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) false)) :rule trans :premises (t2902.t2.t6 t2902.t2.t11))
% 32.25/32.47 (step t2902.t2.t13 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2902.t2.t2 t2902.t2.t12))
% 32.25/32.47 (step t2902.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule subproof :discharge (t2902.t2.a0 t2902.t2.a1))
% 32.25/32.47 (step t2902.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule and_pos)
% 32.25/32.47 (step t2902.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.47 (step t2902.t5 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2902.t2 t2902.t3 t2902.t4))
% 32.25/32.47 (step t2902.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule reordering :premises (t2902.t5))
% 32.25/32.47 (step t2902.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule contraction :premises (t2902.t6))
% 32.25/32.47 (step t2902.t8 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2902.t1 t2902.t7))
% 32.25/32.47 (step t2902.t9 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule implies_neg2)
% 32.25/32.47 (step t2902.t10 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t2902.t8 t2902.t9))
% 32.25/32.47 (step t2902.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule contraction :premises (t2902.t10))
% 32.25/32.47 (step t2902.t12 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule implies :premises (t2902.t11))
% 32.25/32.47 (step t2902.t13 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule and_neg)
% 32.25/32.47 (step t2902.t14 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2902.t13 t2902.a1 t2902.a0))
% 32.25/32.47 (step t2902.t15 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2902.t12 t2902.t14))
% 32.25/32.47 (step t2902 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule subproof :discharge (t2902.a0 t2902.a1))
% 32.25/32.47 (step t2903 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.25/32.47 (step t2904 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) :rule and_pos)
% 32.25/32.47 (step t2905 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))))) :rule resolution :premises (t2902 t2903 t2904))
% 32.25/32.47 (step t2906 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule reordering :premises (t2905))
% 32.25/32.47 (step t2907 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule contraction :premises (t2906))
% 32.25/32.47 (step t2908 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2901 t2907))
% 32.25/32.47 (step t2909 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule implies_neg2)
% 32.25/32.47 (step t2910 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (=> (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t2908 t2909))
% 32.25/32.47 (step t2911 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule contraction :premises (t2910))
% 32.25/32.47 (step t2912 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule implies :premises (t2911))
% 32.25/32.47 (step t2913 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t2900 t2912))
% 32.25/32.47 (step t2914 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))))) :rule or_neg)
% 32.25/32.47 (step t2915 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))))) :rule or_neg)
% 32.25/32.47 (step t2916 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule or_neg)
% 32.25/32.47 (step t2917 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t2913 t2914 t2915 t2916))
% 32.25/32.47 (step t2918 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule contraction :premises (t2917))
% 32.25/32.47 (step t2919 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t2897 t2899 t2918))
% 32.25/32.47 (step t2920 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule or :premises (t2919))
% 32.25/32.47 (step t2921 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e20 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t2920))
% 32.25/32.47 (step t2922 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2894 t2896 t2921 t2449))
% 32.25/32.47 (step t2923 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) :rule contraction :premises (t2922))
% 32.25/32.47 (step t2924 (cl (or (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule and :premises (t218))
% 32.25/32.47 (step t2925 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule or :premises (t2924))
% 32.25/32.47 (step t2926 (cl (not (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))))) (not (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_pos2)
% 32.25/32.47 (step t2927 (cl (= (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule refl)
% 32.25/32.47 (step t2928 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule refl)
% 32.25/32.47 (step t2929 (cl (= (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) true) (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.47 (step t2930 (cl (not (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) true)) (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) :rule equiv1 :premises (t2929))
% 32.25/32.47 (step t2931 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))))) :rule all_simplify)
% 32.25/32.47 (step t2932 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) :rule refl)
% 32.25/32.47 (step t2933 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.25/32.47 (step t2934 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) :rule cong :premises (t2932 t2933))
% 32.25/32.47 (step t2935 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) true)) :rule all_simplify)
% 32.25/32.47 (step t2936 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) true)) :rule trans :premises (t2934 t2935))
% 32.25/32.47 (step t2937 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) true)) :rule trans :premises (t2931 t2936))
% 32.25/32.47 (step t2938 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2930 t2937))
% 32.25/32.47 (step t2939 (cl (= (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule refl)
% 32.25/32.47 (step t2940 (cl (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))))) :rule cong :premises (t2927 t2928 t2938 t2939))
% 32.25/32.47 (step t2941 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) :rule and_neg)
% 32.25/32.47 (step t2942 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2943)
% 32.25/32.47 (assume t2943.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.25/32.47 (assume t2943.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.47 (assume t2943.a2 (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))
% 32.25/32.47 (step t2943.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2943.t2)
% 32.25/32.47 (assume t2943.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))
% 32.25/32.47 (assume t2943.t2.a1 (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))
% 32.25/32.47 (step t2943.t2.t1 (cl (= (= (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) false) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.47 (step t2943.t2.t2 (cl (not (= (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) false)) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule equiv1 :premises (t2943.t2.t1))
% 32.25/32.47 (step t2943.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) :rule symm :premises (t2943.t2.a1))
% 32.25/32.47 (step t2943.t2.t4 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule symm :premises (t2943.t2.t3))
% 32.25/32.47 (step t2943.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) :rule refl)
% 32.25/32.47 (step t2943.t2.t6 (cl (= (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) :rule cong :premises (t2943.t2.t4 t2943.t2.t5))
% 32.25/32.47 (step t2943.t2.t7 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) false) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.25/32.47 (step t2943.t2.t8 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv2 :premises (t2943.t2.t7))
% 32.25/32.47 (step t2943.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) :rule not_not)
% 32.25/32.47 (step t2943.t2.t10 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) false) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) :rule resolution :premises (t2943.t2.t8 t2943.t2.t9))
% 32.25/32.47 (step t2943.t2.t11 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) false)) :rule resolution :premises (t2943.t2.t10 t2943.t2.a0))
% 32.25/32.47 (step t2943.t2.t12 (cl (= (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) false)) :rule trans :premises (t2943.t2.t6 t2943.t2.t11))
% 32.25/32.47 (step t2943.t2.t13 (cl (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2943.t2.t2 t2943.t2.t12))
% 32.25/32.47 (step t2943.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule subproof :discharge (t2943.t2.a0 t2943.t2.a1))
% 32.25/32.47 (step t2943.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) :rule and_pos)
% 32.25/32.47 (step t2943.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2943.t5 (cl (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t2943.t2 t2943.t3 t2943.t4))
% 32.25/32.47 (step t2943.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t2943.t5))
% 32.25/32.47 (step t2943.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule contraction :premises (t2943.t6))
% 32.25/32.47 (step t2943.t8 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2943.t1 t2943.t7))
% 32.25/32.47 (step t2943.t9 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg2)
% 32.25/32.47 (step t2943.t10 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2943.t8 t2943.t9))
% 32.25/32.47 (step t2943.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t2943.t10))
% 32.25/32.47 (step t2943.t12 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies :premises (t2943.t11))
% 32.25/32.47 (step t2943.t13 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule and_neg)
% 32.25/32.47 (step t2943.t14 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2943.t15)
% 32.25/32.47 (assume t2943.t15.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.47 (assume t2943.t15.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.25/32.47 (step t2943.t15.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t2943.t15.a1))
% 32.25/32.47 (step t2943.t15.t2 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t2943.t15.t1))
% 32.25/32.47 (step t2943.t15.t3 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t2943.t15.a0))
% 32.25/32.47 (step t2943.t15.t4 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t2943.t15.t3))
% 32.25/32.47 (step t2943.t15.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t2943.t15.t4))
% 32.25/32.47 (step t2943.t15.t6 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.47 (step t2943.t15.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t2943.t15.t5 t2943.t15.t6))
% 32.25/32.47 (step t2943.t15.t8 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule trans :premises (t2943.t15.t2 t2943.t15.t7))
% 32.25/32.47 (step t2943.t15 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule subproof :discharge (t2943.t15.a0 t2943.t15.a1))
% 32.25/32.47 (step t2943.t16 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t2943.t17 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2943.t18 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule resolution :premises (t2943.t15 t2943.t16 t2943.t17))
% 32.25/32.47 (step t2943.t19 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule reordering :premises (t2943.t18))
% 32.25/32.47 (step t2943.t20 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule contraction :premises (t2943.t19))
% 32.25/32.47 (step t2943.t21 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t2943.t14 t2943.t20))
% 32.25/32.47 (step t2943.t22 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg2)
% 32.25/32.47 (step t2943.t23 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t2943.t21 t2943.t22))
% 32.25/32.47 (step t2943.t24 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t2943.t23))
% 32.25/32.47 (step t2943.t25 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule implies :premises (t2943.t24))
% 32.25/32.47 (step t2943.t26 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule and_neg)
% 32.25/32.47 (step t2943.t27 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule resolution :premises (t2943.t26 t2943.a1 t2943.a0))
% 32.25/32.47 (step t2943.t28 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t2943.t25 t2943.t27))
% 32.25/32.47 (step t2943.t29 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t2943.t13 t2943.a2 t2943.t28))
% 32.25/32.47 (step t2943.t30 (cl (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2943.t12 t2943.t29))
% 32.25/32.47 (step t2943 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule subproof :discharge (t2943.a0 t2943.a1 t2943.a2))
% 32.25/32.47 (step t2944 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2945 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t2946 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) :rule and_pos)
% 32.25/32.47 (step t2947 (cl (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))))) :rule resolution :premises (t2943 t2944 t2945 t2946))
% 32.25/32.47 (step t2948 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t2947))
% 32.25/32.47 (step t2949 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule contraction :premises (t2948))
% 32.25/32.47 (step t2950 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2942 t2949))
% 32.25/32.47 (step t2951 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg2)
% 32.25/32.47 (step t2952 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2950 t2951))
% 32.25/32.47 (step t2953 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t2952))
% 32.25/32.47 (step t2954 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20))))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies :premises (t2953))
% 32.25/32.47 (step t2955 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2941 t2954))
% 32.25/32.47 (step t2956 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule or_neg)
% 32.25/32.47 (step t2957 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.25/32.47 (step t2958 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))))) :rule or_neg)
% 32.25/32.47 (step t2959 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule or_neg)
% 32.25/32.47 (step t2960 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2955 t2956 t2957 t2958 t2959))
% 32.25/32.47 (step t2961 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t2960))
% 32.25/32.47 (step t2962 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t2926 t2940 t2961))
% 32.25/32.47 (step t2963 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule or :premises (t2962))
% 32.25/32.47 (step t2964 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule reordering :premises (t2963))
% 32.25/32.47 (step t2965 (cl (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e20)))) :rule and :premises (t459))
% 32.25/32.47 (step t2966 (cl (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t2964 t2965 t1679 t864))
% 32.25/32.47 (step t2967 (cl (or (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20)))) :rule and :premises (t2369))
% 32.25/32.47 (step t2968 (cl (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) :rule or :premises (t2967))
% 32.25/32.47 (step t2969 (cl (or (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule and :premises (t2369))
% 32.25/32.47 (step t2970 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) :rule or :premises (t2969))
% 32.25/32.47 (step t2971 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule equiv_pos2)
% 32.25/32.47 (step t2972 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) :rule equiv_simplify)
% 32.25/32.47 (step t2973 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) :rule equiv1 :premises (t2972))
% 32.25/32.47 (step t2974 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))))) :rule all_simplify)
% 32.25/32.47 (step t2975 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) :rule refl)
% 32.25/32.47 (step t2976 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) :rule all_simplify)
% 32.25/32.47 (step t2977 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) :rule cong :premises (t2975 t2976))
% 32.25/32.47 (step t2978 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) true)) :rule all_simplify)
% 32.25/32.47 (step t2979 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) true)) :rule trans :premises (t2977 t2978))
% 32.25/32.47 (step t2980 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) true)) :rule trans :premises (t2974 t2979))
% 32.25/32.47 (step t2981 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t2973 t2980))
% 32.25/32.47 (step t2982 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule refl)
% 32.25/32.47 (step t2983 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))))) :rule cong :premises (t222 t2981 t2982))
% 32.25/32.47 (step t2984 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) :rule and_neg)
% 32.25/32.47 (step t2985 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2986)
% 32.25/32.47 (assume t2986.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t2986.a1 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))
% 32.25/32.47 (step t2986.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t2986.t2)
% 32.25/32.47 (assume t2986.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))
% 32.25/32.47 (assume t2986.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (step t2986.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) false) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule equiv_simplify)
% 32.25/32.47 (step t2986.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) false)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule equiv1 :premises (t2986.t2.t1))
% 32.25/32.47 (step t2986.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t2986.t2.a1))
% 32.25/32.47 (step t2986.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t2986.t2.t3))
% 32.25/32.47 (step t2986.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule refl)
% 32.25/32.47 (step t2986.t2.t6 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) :rule cong :premises (t2986.t2.t4 t2986.t2.t5))
% 32.25/32.47 (step t2986.t2.t7 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) false) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) :rule equiv_simplify)
% 32.25/32.47 (step t2986.t2.t8 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) :rule equiv2 :premises (t2986.t2.t7))
% 32.25/32.47 (step t2986.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule not_not)
% 32.25/32.47 (step t2986.t2.t10 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) false) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t2986.t2.t8 t2986.t2.t9))
% 32.25/32.47 (step t2986.t2.t11 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) false)) :rule resolution :premises (t2986.t2.t10 t2986.t2.a0))
% 32.25/32.47 (step t2986.t2.t12 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)) false)) :rule trans :premises (t2986.t2.t6 t2986.t2.t11))
% 32.25/32.47 (step t2986.t2.t13 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t2986.t2.t2 t2986.t2.t12))
% 32.25/32.47 (step t2986.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule subproof :discharge (t2986.t2.a0 t2986.t2.a1))
% 32.25/32.47 (step t2986.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t2986.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2986.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t2986.t2 t2986.t3 t2986.t4))
% 32.25/32.47 (step t2986.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule reordering :premises (t2986.t5))
% 32.25/32.47 (step t2986.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t2986.t6))
% 32.25/32.47 (step t2986.t8 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t2986.t1 t2986.t7))
% 32.25/32.47 (step t2986.t9 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule implies_neg2)
% 32.25/32.47 (step t2986.t10 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t2986.t8 t2986.t9))
% 32.25/32.47 (step t2986.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule contraction :premises (t2986.t10))
% 32.25/32.47 (step t2986.t12 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies :premises (t2986.t11))
% 32.25/32.47 (step t2986.t13 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_neg)
% 32.25/32.47 (step t2986.t14 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t2986.t13 t2986.a1 t2986.a0))
% 32.25/32.47 (step t2986.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t2986.t12 t2986.t14))
% 32.25/32.47 (step t2986 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule subproof :discharge (t2986.a0 t2986.a1))
% 32.25/32.47 (step t2987 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t2988 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t2989 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))))) :rule resolution :premises (t2986 t2987 t2988))
% 32.25/32.47 (step t2990 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule reordering :premises (t2989))
% 32.25/32.47 (step t2991 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t2990))
% 32.25/32.47 (step t2992 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t2985 t2991))
% 32.25/32.47 (step t2993 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule implies_neg2)
% 32.25/32.47 (step t2994 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t2992 t2993))
% 32.25/32.47 (step t2995 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule contraction :premises (t2994))
% 32.25/32.47 (step t2996 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24))))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies :premises (t2995))
% 32.25/32.47 (step t2997 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t2984 t2996))
% 32.25/32.47 (step t2998 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.25/32.47 (step t2999 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))))) :rule or_neg)
% 32.25/32.47 (step t3000 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule or_neg)
% 32.25/32.47 (step t3001 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t2997 t2998 t2999 t3000))
% 32.25/32.47 (step t3002 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule contraction :premises (t3001))
% 32.25/32.47 (step t3003 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t2971 t2983 t3002))
% 32.25/32.47 (step t3004 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule or :premises (t3003))
% 32.25/32.47 (step t3005 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule reordering :premises (t3004))
% 32.25/32.47 (step t3006 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e23 tptp.e24)))) :rule and :premises (t459))
% 32.25/32.47 (step t3007 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t3005 t3006 t461))
% 32.25/32.47 (step t3008 (cl (not (= (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))))) (not (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_pos2)
% 32.25/32.47 (step t3009 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule refl)
% 32.25/32.47 (step t3010 (cl (= (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true) (= (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.25/32.47 (step t3011 (cl (not (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true)) (= (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule equiv1 :premises (t3010))
% 32.25/32.47 (step t3012 (cl (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))))) :rule all_simplify)
% 32.25/32.47 (step t3013 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule refl)
% 32.25/32.47 (step t3014 (cl (= (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.25/32.47 (step t3015 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t3013 t3014))
% 32.25/32.47 (step t3016 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true)) :rule all_simplify)
% 32.25/32.47 (step t3017 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) true)) :rule trans :premises (t3015 t3016))
% 32.25/32.47 (step t3018 (cl (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true)) :rule trans :premises (t3012 t3017))
% 32.25/32.47 (step t3019 (cl (= (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t3011 t3018))
% 32.25/32.47 (step t3020 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule refl)
% 32.25/32.47 (step t3021 (cl (= (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))))) :rule cong :premises (t3009 t3019 t3020))
% 32.25/32.47 (step t3022 (cl (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule and_neg)
% 32.25/32.47 (step t3023 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3024)
% 32.25/32.47 (assume t3024.a0 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (assume t3024.a1 (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))
% 32.25/32.47 (step t3024.t1 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3024.t2)
% 32.25/32.47 (assume t3024.t2.a0 (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))
% 32.25/32.47 (assume t3024.t2.a1 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (step t3024.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) false) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.25/32.47 (step t3024.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) false)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule equiv1 :premises (t3024.t2.t1))
% 32.25/32.47 (step t3024.t2.t3 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3024.t2.a1))
% 32.25/32.47 (step t3024.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3024.t2.t3))
% 32.25/32.47 (step t3024.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule refl)
% 32.25/32.47 (step t3024.t2.t6 (cl (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule cong :premises (t3024.t2.t4 t3024.t2.t5))
% 32.25/32.47 (step t3024.t2.t7 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.25/32.47 (step t3024.t2.t8 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv2 :premises (t3024.t2.t7))
% 32.25/32.47 (step t3024.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule not_not)
% 32.25/32.47 (step t3024.t2.t10 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule resolution :premises (t3024.t2.t8 t3024.t2.t9))
% 32.25/32.47 (step t3024.t2.t11 (cl (= (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false)) :rule resolution :premises (t3024.t2.t10 t3024.t2.a0))
% 32.25/32.47 (step t3024.t2.t12 (cl (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) false)) :rule trans :premises (t3024.t2.t6 t3024.t2.t11))
% 32.25/32.47 (step t3024.t2.t13 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t3024.t2.t2 t3024.t2.t12))
% 32.25/32.47 (step t3024.t2 (cl (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule subproof :discharge (t3024.t2.a0 t3024.t2.a1))
% 32.25/32.47 (step t3024.t3 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule and_pos)
% 32.25/32.47 (step t3024.t4 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3024.t5 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))) (not (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t3024.t2 t3024.t3 t3024.t4))
% 32.25/32.47 (step t3024.t6 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule reordering :premises (t3024.t5))
% 32.25/32.47 (step t3024.t7 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule contraction :premises (t3024.t6))
% 32.25/32.47 (step t3024.t8 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t3024.t1 t3024.t7))
% 32.25/32.47 (step t3024.t9 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg2)
% 32.25/32.47 (step t3024.t10 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (=> (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t3024.t8 t3024.t9))
% 32.25/32.47 (step t3024.t11 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t3024.t10))
% 32.25/32.47 (step t3024.t12 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule implies :premises (t3024.t11))
% 32.25/32.47 (step t3024.t13 (cl (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule and_neg)
% 32.25/32.47 (step t3024.t14 (cl (and (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t3024.t13 t3024.a1 t3024.a0))
% 32.25/32.47 (step t3024.t15 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t3024.t12 t3024.t14))
% 32.25/32.47 (step t3024 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule subproof :discharge (t3024.a0 t3024.a1))
% 32.25/32.47 (step t3025 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3026 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule and_pos)
% 32.25/32.47 (step t3027 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))) (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))))) :rule resolution :premises (t3024 t3025 t3026))
% 32.25/32.47 (step t3028 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule reordering :premises (t3027))
% 32.25/32.47 (step t3029 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule contraction :premises (t3028))
% 32.25/32.47 (step t3030 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t3023 t3029))
% 32.25/32.47 (step t3031 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg2)
% 32.25/32.47 (step t3032 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t3030 t3031))
% 32.25/32.47 (step t3033 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t3032))
% 32.25/32.47 (step t3034 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule implies :premises (t3033))
% 32.25/32.47 (step t3035 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t3022 t3034))
% 32.25/32.47 (step t3036 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule or_neg)
% 32.25/32.47 (step t3037 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))))) :rule or_neg)
% 32.25/32.47 (step t3038 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule or_neg)
% 32.25/32.47 (step t3039 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t3035 t3036 t3037 t3038))
% 32.25/32.47 (step t3040 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t3039))
% 32.25/32.47 (step t3041 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t3008 t3021 t3040))
% 32.25/32.47 (step t3042 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule or :premises (t3041))
% 32.25/32.47 (step t3043 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule reordering :premises (t3042))
% 32.25/32.47 (step t3044 (cl (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule and :premises (t459))
% 32.25/32.47 (step t3045 (cl (not (= (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))))) (not (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.47 (step t3046 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule refl)
% 32.25/32.47 (step t3047 (cl (= (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t3048 (cl (not (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t3047))
% 32.25/32.47 (step t3049 (cl (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))))) :rule all_simplify)
% 32.25/32.47 (step t3050 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) :rule refl)
% 32.25/32.47 (step t3051 (cl (= (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.47 (step t3052 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t3050 t3051))
% 32.25/32.47 (step t3053 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.47 (step t3054 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) true)) :rule trans :premises (t3052 t3053))
% 32.25/32.47 (step t3055 (cl (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) true)) :rule trans :premises (t3049 t3054))
% 32.25/32.47 (step t3056 (cl (= (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3048 t3055))
% 32.25/32.47 (step t3057 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule refl)
% 32.25/32.47 (step t3058 (cl (= (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))))) :rule cong :premises (t3046 t3056 t3057))
% 32.25/32.47 (step t3059 (cl (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) :rule and_neg)
% 32.25/32.47 (step t3060 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3061)
% 32.25/32.47 (assume t3061.a0 (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))
% 32.25/32.47 (assume t3061.a1 (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))
% 32.25/32.47 (step t3061.t1 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3061.t2)
% 32.25/32.47 (assume t3061.t2.a0 (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))
% 32.25/32.47 (assume t3061.t2.a1 (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))
% 32.25/32.47 (step t3061.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) false) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t3061.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) false)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t3061.t2.t1))
% 32.25/32.47 (step t3061.t2.t3 (cl (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12)) :rule symm :premises (t3061.t2.a1))
% 32.25/32.47 (step t3061.t2.t4 (cl (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) :rule symm :premises (t3061.t2.t3))
% 32.25/32.47 (step t3061.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule refl)
% 32.25/32.47 (step t3061.t2.t6 (cl (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) :rule cong :premises (t3061.t2.t4 t3061.t2.t5))
% 32.25/32.47 (step t3061.t2.t7 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) false) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t3061.t2.t8 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv2 :premises (t3061.t2.t7))
% 32.25/32.47 (step t3061.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) :rule not_not)
% 32.25/32.47 (step t3061.t2.t10 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) false) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) :rule resolution :premises (t3061.t2.t8 t3061.t2.t9))
% 32.25/32.47 (step t3061.t2.t11 (cl (= (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) false)) :rule resolution :premises (t3061.t2.t10 t3061.t2.a0))
% 32.25/32.47 (step t3061.t2.t12 (cl (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) false)) :rule trans :premises (t3061.t2.t6 t3061.t2.t11))
% 32.25/32.47 (step t3061.t2.t13 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3061.t2.t2 t3061.t2.t12))
% 32.25/32.47 (step t3061.t2 (cl (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t3061.t2.a0 t3061.t2.a1))
% 32.25/32.47 (step t3061.t3 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t3061.t4 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t3061.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3061.t2 t3061.t3 t3061.t4))
% 32.25/32.47 (step t3061.t6 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t3061.t5))
% 32.25/32.47 (step t3061.t7 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t3061.t6))
% 32.25/32.47 (step t3061.t8 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3061.t1 t3061.t7))
% 32.25/32.47 (step t3061.t9 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t3061.t10 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t3061.t8 t3061.t9))
% 32.25/32.47 (step t3061.t11 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t3061.t10))
% 32.25/32.47 (step t3061.t12 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t3061.t11))
% 32.25/32.47 (step t3061.t13 (cl (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule and_neg)
% 32.25/32.47 (step t3061.t14 (cl (and (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3061.t13 t3061.a1 t3061.a0))
% 32.25/32.47 (step t3061.t15 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3061.t12 t3061.t14))
% 32.25/32.47 (step t3061 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t3061.a0 t3061.a1))
% 32.25/32.47 (step t3062 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t3063 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t3064 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))) (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))))) :rule resolution :premises (t3061 t3062 t3063))
% 32.25/32.47 (step t3065 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t3064))
% 32.25/32.47 (step t3066 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t3065))
% 32.25/32.47 (step t3067 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3060 t3066))
% 32.25/32.47 (step t3068 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t3069 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t3067 t3068))
% 32.25/32.47 (step t3070 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t3069))
% 32.25/32.47 (step t3071 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t3070))
% 32.25/32.47 (step t3072 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3059 t3071))
% 32.25/32.47 (step t3073 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule or_neg)
% 32.25/32.47 (step t3074 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))))) :rule or_neg)
% 32.25/32.47 (step t3075 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule or_neg)
% 32.25/32.47 (step t3076 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t3072 t3073 t3074 t3075))
% 32.25/32.47 (step t3077 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t3076))
% 32.25/32.47 (step t3078 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t3045 t3058 t3077))
% 32.25/32.47 (step t3079 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)))) :rule or :premises (t3078))
% 32.25/32.47 (step t3080 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t3079))
% 32.25/32.47 (step t3081 (cl (not (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.47 (step t3082 (cl (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule and :premises (t1410))
% 32.25/32.47 (step t3083 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule or :premises (t3082))
% 32.25/32.47 (step t3084 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t2923 t2925 t2966 t2968 t462 t2970 t3007 t3043 t3044 t2307 t1382 t2308 t3080 t3081 t3083))
% 32.25/32.47 (step t3085 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))) :rule contraction :premises (t3084))
% 32.25/32.47 (step t3086 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_pos2)
% 32.25/32.47 (step t3087 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.47 (step t3088 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t3087))
% 32.25/32.47 (step t3089 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))))) :rule all_simplify)
% 32.25/32.47 (step t3090 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule refl)
% 32.25/32.47 (step t3091 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.25/32.47 (step t3092 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t3090 t3091))
% 32.25/32.47 (step t3093 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true)) :rule all_simplify)
% 32.25/32.47 (step t3094 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) true)) :rule trans :premises (t3092 t3093))
% 32.25/32.47 (step t3095 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true)) :rule trans :premises (t3089 t3094))
% 32.25/32.47 (step t3096 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3088 t3095))
% 32.25/32.47 (step t3097 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule refl)
% 32.25/32.47 (step t3098 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))))) :rule cong :premises (t1111 t1415 t3096 t3097))
% 32.25/32.47 (step t3099 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule and_neg)
% 32.25/32.47 (step t3100 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3101)
% 32.25/32.47 (assume t3101.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.47 (assume t3101.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.47 (assume t3101.a2 (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))
% 32.25/32.47 (step t3101.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3101.t2)
% 32.25/32.47 (assume t3101.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))
% 32.25/32.47 (assume t3101.t2.a1 (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))
% 32.25/32.47 (step t3101.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) false) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.47 (step t3101.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) false)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t3101.t2.t1))
% 32.25/32.47 (step t3101.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule symm :premises (t3101.t2.a1))
% 32.25/32.47 (step t3101.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule symm :premises (t3101.t2.t3))
% 32.25/32.47 (step t3101.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule refl)
% 32.25/32.47 (step t3101.t2.t6 (cl (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule cong :premises (t3101.t2.t4 t3101.t2.t5))
% 32.25/32.47 (step t3101.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.25/32.47 (step t3101.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv2 :premises (t3101.t2.t7))
% 32.25/32.47 (step t3101.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule not_not)
% 32.25/32.47 (step t3101.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t3101.t2.t8 t3101.t2.t9))
% 32.25/32.47 (step t3101.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false)) :rule resolution :premises (t3101.t2.t10 t3101.t2.a0))
% 32.25/32.47 (step t3101.t2.t12 (cl (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) false)) :rule trans :premises (t3101.t2.t6 t3101.t2.t11))
% 32.25/32.47 (step t3101.t2.t13 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3101.t2.t2 t3101.t2.t12))
% 32.25/32.47 (step t3101.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t3101.t2.a0 t3101.t2.a1))
% 32.25/32.47 (step t3101.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.25/32.47 (step t3101.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t3101.t5 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t3101.t2 t3101.t3 t3101.t4))
% 32.25/32.47 (step t3101.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t3101.t5))
% 32.25/32.47 (step t3101.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t3101.t6))
% 32.25/32.47 (step t3101.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3101.t1 t3101.t7))
% 32.25/32.47 (step t3101.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.25/32.47 (step t3101.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3101.t8 t3101.t9))
% 32.25/32.47 (step t3101.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t3101.t10))
% 32.25/32.47 (step t3101.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t3101.t11))
% 32.25/32.47 (step t3101.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule and_neg)
% 32.25/32.47 (step t3101.t14 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3101.t15)
% 32.25/32.47 (assume t3101.t15.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.25/32.47 (assume t3101.t15.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.25/32.47 (step t3101.t15.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t3101.t15.a1))
% 32.25/32.47 (step t3101.t15.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t3101.t15.t1))
% 32.25/32.47 (step t3101.t15.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.25/32.47 (step t3101.t15.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t3101.t15.a0))
% 32.25/32.47 (step t3101.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op1 tptp.e14 tptp.e11))) :rule cong :premises (t3101.t15.t3 t3101.t15.t4))
% 32.25/32.47 (step t3101.t15.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t3101.t15.t2 t3101.t15.t5))
% 32.25/32.47 (step t3101.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule subproof :discharge (t3101.t15.a0 t3101.t15.a1))
% 32.25/32.47 (step t3101.t16 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t3101.t17 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.47 (step t3101.t18 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t3101.t15 t3101.t16 t3101.t17))
% 32.25/32.47 (step t3101.t19 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule reordering :premises (t3101.t18))
% 32.25/32.47 (step t3101.t20 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule contraction :premises (t3101.t19))
% 32.25/32.47 (step t3101.t21 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t3101.t14 t3101.t20))
% 32.25/32.47 (step t3101.t22 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg2)
% 32.25/32.47 (step t3101.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3101.t21 t3101.t22))
% 32.25/32.47 (step t3101.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t3101.t23))
% 32.25/32.47 (step t3101.t25 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule implies :premises (t3101.t24))
% 32.25/32.47 (step t3101.t26 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.25/32.47 (step t3101.t27 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3101.t26 t3101.a0 t3101.a1))
% 32.25/32.47 (step t3101.t28 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t3101.t25 t3101.t27))
% 32.25/32.47 (step t3101.t29 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3101.t13 t3101.a2 t3101.t28))
% 32.25/32.47 (step t3101.t30 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3101.t12 t3101.t29))
% 32.25/32.47 (step t3101 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t3101.a0 t3101.a1 t3101.a2))
% 32.25/32.47 (step t3102 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t3103 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.25/32.47 (step t3104 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.25/32.47 (step t3105 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))))) :rule resolution :premises (t3101 t3102 t3103 t3104))
% 32.25/32.47 (step t3106 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t3105))
% 32.25/32.47 (step t3107 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t3106))
% 32.25/32.47 (step t3108 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3100 t3107))
% 32.25/32.47 (step t3109 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.25/32.47 (step t3110 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3108 t3109))
% 32.25/32.47 (step t3111 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t3110))
% 32.25/32.47 (step t3112 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t3111))
% 32.25/32.47 (step t3113 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3099 t3112))
% 32.25/32.47 (step t3114 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.25/32.47 (step t3115 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.25/32.47 (step t3116 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))))) :rule or_neg)
% 32.25/32.47 (step t3117 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule or_neg)
% 32.25/32.47 (step t3118 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3113 t3114 t3115 t3116 t3117))
% 32.25/32.47 (step t3119 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t3118))
% 32.25/32.47 (step t3120 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3086 t3098 t3119))
% 32.25/32.47 (step t3121 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule or :premises (t3120))
% 32.25/32.47 (step t3122 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t3121))
% 32.25/32.47 (step t3123 (cl (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule and :premises (t1360))
% 32.25/32.47 (step t3124 (cl (not (= (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))))) (not (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_pos2)
% 32.25/32.47 (step t3125 (cl (= (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t3126 (cl (not (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t3125))
% 32.25/32.47 (step t3127 (cl (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))))) :rule all_simplify)
% 32.25/32.47 (step t3128 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) :rule refl)
% 32.25/32.47 (step t3129 (cl (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.25/32.47 (step t3130 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t3128 t3129))
% 32.25/32.47 (step t3131 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) true)) :rule all_simplify)
% 32.25/32.47 (step t3132 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) true)) :rule trans :premises (t3130 t3131))
% 32.25/32.47 (step t3133 (cl (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) true)) :rule trans :premises (t3127 t3132))
% 32.25/32.47 (step t3134 (cl (= (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3126 t3133))
% 32.25/32.47 (step t3135 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule refl)
% 32.25/32.47 (step t3136 (cl (= (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))))) :rule cong :premises (t1954 t1115 t3134 t3135))
% 32.25/32.47 (step t3137 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) :rule and_neg)
% 32.25/32.47 (step t3138 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3139)
% 32.25/32.47 (assume t3139.a0 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.25/32.47 (assume t3139.a1 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t3139.a2 (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))
% 32.25/32.47 (step t3139.t1 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3139.t2)
% 32.25/32.47 (assume t3139.t2.a0 (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))
% 32.25/32.47 (assume t3139.t2.a1 (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))
% 32.25/32.47 (step t3139.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) false) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t3139.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) false)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t3139.t2.t1))
% 32.25/32.47 (step t3139.t2.t3 (cl (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10)) :rule symm :premises (t3139.t2.a1))
% 32.25/32.47 (step t3139.t2.t4 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule symm :premises (t3139.t2.t3))
% 32.25/32.47 (step t3139.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule refl)
% 32.25/32.47 (step t3139.t2.t6 (cl (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) :rule cong :premises (t3139.t2.t4 t3139.t2.t5))
% 32.25/32.47 (step t3139.t2.t7 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) false) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.25/32.47 (step t3139.t2.t8 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv2 :premises (t3139.t2.t7))
% 32.25/32.47 (step t3139.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) :rule not_not)
% 32.25/32.47 (step t3139.t2.t10 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) false) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) :rule resolution :premises (t3139.t2.t8 t3139.t2.t9))
% 32.25/32.47 (step t3139.t2.t11 (cl (= (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) false)) :rule resolution :premises (t3139.t2.t10 t3139.t2.a0))
% 32.25/32.47 (step t3139.t2.t12 (cl (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) false)) :rule trans :premises (t3139.t2.t6 t3139.t2.t11))
% 32.25/32.47 (step t3139.t2.t13 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3139.t2.t2 t3139.t2.t12))
% 32.25/32.47 (step t3139.t2 (cl (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t3139.t2.a0 t3139.t2.a1))
% 32.25/32.47 (step t3139.t3 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t3139.t4 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule and_pos)
% 32.25/32.47 (step t3139.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t3139.t2 t3139.t3 t3139.t4))
% 32.25/32.47 (step t3139.t6 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t3139.t5))
% 32.25/32.47 (step t3139.t7 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t3139.t6))
% 32.25/32.47 (step t3139.t8 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3139.t1 t3139.t7))
% 32.25/32.47 (step t3139.t9 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t3139.t10 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t3139.t8 t3139.t9))
% 32.25/32.47 (step t3139.t11 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t3139.t10))
% 32.25/32.47 (step t3139.t12 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t3139.t11))
% 32.25/32.47 (step t3139.t13 (cl (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule and_neg)
% 32.25/32.47 (step t3139.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3139.t15)
% 32.25/32.47 (assume t3139.t15.a0 (= tptp.e12 tptp.unit1))
% 32.25/32.47 (assume t3139.t15.a1 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.25/32.47 (step t3139.t15.t1 (cl (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10)) :rule symm :premises (t3139.t15.a1))
% 32.25/32.47 (step t3139.t15.t2 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule symm :premises (t3139.t15.t1))
% 32.25/32.47 (step t3139.t15.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.25/32.47 (step t3139.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t3139.t15.a0))
% 32.25/32.47 (step t3139.t15.t5 (cl (= (tptp.op1 tptp.e10 tptp.unit1) (tptp.op1 tptp.e10 tptp.e12))) :rule cong :premises (t3139.t15.t3 t3139.t15.t4))
% 32.25/32.47 (step t3139.t15.t6 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule trans :premises (t3139.t15.t2 t3139.t15.t5))
% 32.25/32.47 (step t3139.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule subproof :discharge (t3139.t15.a0 t3139.t15.a1))
% 32.25/32.47 (step t3139.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t3139.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.25/32.47 (step t3139.t18 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule resolution :premises (t3139.t15 t3139.t16 t3139.t17))
% 32.25/32.47 (step t3139.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule reordering :premises (t3139.t18))
% 32.25/32.47 (step t3139.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule contraction :premises (t3139.t19))
% 32.25/32.47 (step t3139.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t3139.t14 t3139.t20))
% 32.25/32.47 (step t3139.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies_neg2)
% 32.25/32.47 (step t3139.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t3139.t21 t3139.t22))
% 32.25/32.47 (step t3139.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t3139.t23))
% 32.25/32.47 (step t3139.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule implies :premises (t3139.t24))
% 32.25/32.47 (step t3139.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule and_neg)
% 32.25/32.47 (step t3139.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule resolution :premises (t3139.t26 t3139.a1 t3139.a0))
% 32.25/32.47 (step t3139.t28 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t3139.t25 t3139.t27))
% 32.25/32.47 (step t3139.t29 (cl (and (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t3139.t13 t3139.a2 t3139.t28))
% 32.25/32.47 (step t3139.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3139.t12 t3139.t29))
% 32.25/32.47 (step t3139 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t3139.a0 t3139.a1 t3139.a2))
% 32.25/32.47 (step t3140 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.25/32.47 (step t3141 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.25/32.47 (step t3142 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.25/32.47 (step t3143 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))))) :rule resolution :premises (t3139 t3140 t3141 t3142))
% 32.25/32.47 (step t3144 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t3143))
% 32.25/32.47 (step t3145 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t3144))
% 32.25/32.47 (step t3146 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3138 t3145))
% 32.25/32.47 (step t3147 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.25/32.47 (step t3148 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t3146 t3147))
% 32.25/32.47 (step t3149 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t3148))
% 32.25/32.47 (step t3150 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t3149))
% 32.25/32.47 (step t3151 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t3137 t3150))
% 32.25/32.47 (step t3152 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule or_neg)
% 32.25/32.47 (step t3153 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.25/32.47 (step t3154 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))))) :rule or_neg)
% 32.25/32.47 (step t3155 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule or_neg)
% 32.25/32.47 (step t3156 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t3151 t3152 t3153 t3154 t3155))
% 32.25/32.47 (step t3157 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t3156))
% 32.25/32.47 (step t3158 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t3124 t3136 t3157))
% 32.25/32.47 (step t3159 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule or :premises (t3158))
% 32.25/32.47 (step t3160 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t3159))
% 32.25/32.47 (step t3161 (cl (not (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e10)))) :rule and :premises (t1360))
% 32.25/32.47 (step t3162 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t2000))
% 32.25/32.47 (step t3163 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3085 t2269 t2270 t3122 t3123 t3160 t3161 t1932 t798 t1950 t1998 t1381 t1999 t3162 t2038 t2039))
% 32.25/32.47 (step t3164 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))) :rule contraction :premises (t3163))
% 32.25/32.47 (step t3165 (cl (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14))) (not (= tptp.e24 (tptp.h2 tptp.e11)))) :rule or_neg)
% 32.25/32.47 (step t3166 (cl (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule and_neg)
% 32.25/32.47 (step t3167 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11))) (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3168)
% 32.25/32.47 (assume t3168.a0 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (assume t3168.a1 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.47 (step t3168.t1 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e24 (tptp.h2 tptp.e11))) (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3168.t2)
% 32.25/32.47 (assume t3168.t2.a0 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.47 (assume t3168.t2.a1 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (step t3168.t2.t1 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3168.t2.a1))
% 32.25/32.47 (step t3168.t2.t2 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3168.t2.t1))
% 32.25/32.47 (step t3168.t2.t3 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3168.t2.a0))
% 32.25/32.47 (step t3168.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule symm :premises (t3168.t2.t3))
% 32.25/32.47 (step t3168.t2.t5 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t3168.t2.t2 t3168.t2.t4))
% 32.25/32.47 (step t3168.t2 (cl (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule subproof :discharge (t3168.t2.a0 t3168.t2.a1))
% 32.25/32.47 (step t3168.t3 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t3168.t4 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3168.t5 (cl (= tptp.e24 (tptp.h2 tptp.e11)) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t3168.t2 t3168.t3 t3168.t4))
% 32.25/32.47 (step t3168.t6 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule reordering :premises (t3168.t5))
% 32.25/32.47 (step t3168.t7 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule contraction :premises (t3168.t6))
% 32.25/32.47 (step t3168.t8 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e24 (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule resolution :premises (t3168.t1 t3168.t7))
% 32.25/32.47 (step t3168.t9 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e24 (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.h2 tptp.e11)))) :rule implies_neg2)
% 32.25/32.47 (step t3168.t10 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e24 (tptp.h2 tptp.e11))) (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e24 (tptp.h2 tptp.e11)))) :rule resolution :premises (t3168.t8 t3168.t9))
% 32.25/32.47 (step t3168.t11 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e24 (tptp.h2 tptp.e11)))) :rule contraction :premises (t3168.t10))
% 32.25/32.47 (step t3168.t12 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule implies :premises (t3168.t11))
% 32.25/32.47 (step t3168.t13 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule and_neg)
% 32.25/32.47 (step t3168.t14 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t3168.t13 t3168.a1 t3168.a0))
% 32.25/32.47 (step t3168.t15 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule resolution :premises (t3168.t12 t3168.t14))
% 32.25/32.47 (step t3168 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule subproof :discharge (t3168.a0 t3168.a1))
% 32.25/32.47 (step t3169 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3170 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t3171 (cl (= tptp.e24 (tptp.h2 tptp.e11)) (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))))) :rule resolution :premises (t3168 t3169 t3170))
% 32.25/32.47 (step t3172 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule reordering :premises (t3171))
% 32.25/32.47 (step t3173 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule contraction :premises (t3172))
% 32.25/32.47 (step t3174 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule resolution :premises (t3167 t3173))
% 32.25/32.47 (step t3175 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.h2 tptp.e11)))) :rule implies_neg2)
% 32.25/32.47 (step t3176 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11))) (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11)))) :rule resolution :premises (t3174 t3175))
% 32.25/32.47 (step t3177 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11)))) :rule contraction :premises (t3176))
% 32.25/32.47 (step t3178 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule implies :premises (t3177))
% 32.25/32.47 (step t3179 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= tptp.e24 (tptp.h2 tptp.e11))) :rule resolution :premises (t3166 t3178))
% 32.25/32.47 (step t3180 (cl (= tptp.e24 (tptp.h2 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule reordering :premises (t3179))
% 32.25/32.47 (step t3181 (cl (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14))) (not (= tptp.e23 (tptp.h2 tptp.e10)))) :rule or_neg)
% 32.25/32.47 (step t3182 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule and_neg)
% 32.25/32.47 (step t3183 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3184)
% 32.25/32.47 (assume t3184.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t3184.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.47 (assume t3184.a2 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.47 (assume t3184.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (step t3184.t1 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3184.t2)
% 32.25/32.47 (assume t3184.t2.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.47 (assume t3184.t2.a1 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.47 (assume t3184.t2.a2 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t3184.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (step t3184.t2.t1 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3184.t2.a0))
% 32.25/32.47 (step t3184.t2.t2 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3184.t2.t1))
% 32.25/32.47 (step t3184.t2.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.47 (step t3184.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3184.t2.a2))
% 32.25/32.47 (step t3184.t2.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t3184.t2.t3 t3184.t2.t4))
% 32.25/32.47 (step t3184.t2.t6 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3184.t2.a3))
% 32.25/32.47 (step t3184.t2.t7 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3184.t2.t6))
% 32.25/32.47 (step t3184.t2.t8 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.25/32.47 (step t3184.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t3184.t2.t7 t3184.t2.t8))
% 32.25/32.47 (step t3184.t2.t10 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t3184.t2.a1))
% 32.25/32.47 (step t3184.t2.t11 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t3184.t2.t2 t3184.t2.t5 t3184.t2.t9 t3184.t2.t10))
% 32.25/32.47 (step t3184.t2 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule subproof :discharge (t3184.t2.a0 t3184.t2.a1 t3184.t2.a2 t3184.t2.a3))
% 32.25/32.47 (step t3184.t3 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t3184.t4 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3184.t5 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t3184.t6 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3184.t7 (cl (= tptp.e23 (tptp.h2 tptp.e10)) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t3184.t2 t3184.t3 t3184.t4 t3184.t5 t3184.t6))
% 32.25/32.47 (step t3184.t8 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule reordering :premises (t3184.t7))
% 32.25/32.47 (step t3184.t9 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule contraction :premises (t3184.t8))
% 32.25/32.47 (step t3184.t10 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule resolution :premises (t3184.t1 t3184.t9))
% 32.25/32.47 (step t3184.t11 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) (not (= tptp.e23 (tptp.h2 tptp.e10)))) :rule implies_neg2)
% 32.25/32.47 (step t3184.t12 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10)))) :rule resolution :premises (t3184.t10 t3184.t11))
% 32.25/32.47 (step t3184.t13 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10)))) :rule contraction :premises (t3184.t12))
% 32.25/32.47 (step t3184.t14 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule implies :premises (t3184.t13))
% 32.25/32.47 (step t3184.t15 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule and_neg)
% 32.25/32.47 (step t3184.t16 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t3184.t15 t3184.a1 t3184.a2 t3184.a0 t3184.a3))
% 32.25/32.47 (step t3184.t17 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule resolution :premises (t3184.t14 t3184.t16))
% 32.25/32.47 (step t3184 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule subproof :discharge (t3184.a0 t3184.a1 t3184.a2 t3184.a3))
% 32.25/32.47 (step t3185 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t3186 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t3187 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3188 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3189 (cl (= tptp.e23 (tptp.h2 tptp.e10)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t3184 t3185 t3186 t3187 t3188))
% 32.25/32.47 (step t3190 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule reordering :premises (t3189))
% 32.25/32.47 (step t3191 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule contraction :premises (t3190))
% 32.25/32.47 (step t3192 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule resolution :premises (t3183 t3191))
% 32.25/32.47 (step t3193 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) (not (= tptp.e23 (tptp.h2 tptp.e10)))) :rule implies_neg2)
% 32.25/32.47 (step t3194 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10)))) :rule resolution :premises (t3192 t3193))
% 32.25/32.47 (step t3195 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10)))) :rule contraction :premises (t3194))
% 32.25/32.47 (step t3196 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule implies :premises (t3195))
% 32.25/32.47 (step t3197 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.h2 tptp.e10))) :rule resolution :premises (t3182 t3196))
% 32.25/32.47 (step t3198 (cl (= tptp.e23 (tptp.h2 tptp.e10)) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))) :rule reordering :premises (t3197))
% 32.25/32.47 (step t3199 (cl (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14))) (not (= tptp.e20 (tptp.h2 tptp.e13)))) :rule or_neg)
% 32.25/32.47 (step t3200 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.47 (step t3201 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3202)
% 32.25/32.47 (assume t3202.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.47 (assume t3202.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t3202.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (assume t3202.a3 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.47 (assume t3202.a4 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.47 (assume t3202.a5 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.47 (step t3202.t1 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h2 tptp.e13))) (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3202.t2)
% 32.25/32.47 (assume t3202.t2.a0 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.47 (assume t3202.t2.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.47 (assume t3202.t2.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.47 (assume t3202.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (assume t3202.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t3202.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.47 (step t3202.t2.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3202.t2.a5))
% 32.25/32.47 (step t3202.t2.t2 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3202.t2.t1))
% 32.25/32.47 (step t3202.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3202.t2.a4))
% 32.25/32.47 (step t3202.t2.t4 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.47 (step t3202.t2.t5 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t3202.t2.t3 t3202.t2.t4))
% 32.25/32.47 (step t3202.t2.t6 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3202.t2.a3))
% 32.25/32.47 (step t3202.t2.t7 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3202.t2.t6))
% 32.25/32.47 (step t3202.t2.t8 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t3202.t2.t7 t3202.t2.a2))
% 32.25/32.47 (step t3202.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t3202.t2.a1 t3202.t2.t8))
% 32.25/32.47 (step t3202.t2.t10 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t3202.t2.a1))
% 32.25/32.47 (step t3202.t2.t11 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3202.t2.a2))
% 32.25/32.47 (step t3202.t2.t12 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t3202.t2.t10 t3202.t2.t11))
% 32.25/32.47 (step t3202.t2.t13 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t3202.t2.a0))
% 32.25/32.47 (step t3202.t2.t14 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t3202.t2.t13))
% 32.25/32.47 (step t3202.t2.t15 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t3202.t2.t2 t3202.t2.t5 t3202.t2.t9 t3202.t2.t12 t3202.t2.t14))
% 32.25/32.47 (step t3202.t2 (cl (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule subproof :discharge (t3202.t2.a0 t3202.t2.a1 t3202.t2.a2 t3202.t2.a3 t3202.t2.a4 t3202.t2.a5))
% 32.25/32.47 (step t3202.t3 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.47 (step t3202.t4 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t3202.t5 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t3202.t6 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3202.t7 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t3202.t8 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t3202.t9 (cl (= tptp.e20 (tptp.h2 tptp.e13)) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule resolution :premises (t3202.t2 t3202.t3 t3202.t4 t3202.t5 t3202.t6 t3202.t7 t3202.t8))
% 32.25/32.47 (step t3202.t10 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule reordering :premises (t3202.t9))
% 32.25/32.47 (step t3202.t11 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule contraction :premises (t3202.t10))
% 32.25/32.47 (step t3202.t12 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule resolution :premises (t3202.t1 t3202.t11))
% 32.25/32.47 (step t3202.t13 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.h2 tptp.e13)))) :rule implies_neg2)
% 32.25/32.47 (step t3202.t14 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h2 tptp.e13))) (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h2 tptp.e13)))) :rule resolution :premises (t3202.t12 t3202.t13))
% 32.25/32.47 (step t3202.t15 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.h2 tptp.e13)))) :rule contraction :premises (t3202.t14))
% 32.25/32.47 (step t3202.t16 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule implies :premises (t3202.t15))
% 32.25/32.47 (step t3202.t17 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule and_neg)
% 32.25/32.47 (step t3202.t18 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule resolution :premises (t3202.t17 t3202.a5 t3202.a3 t3202.a4 t3202.a2 t3202.a1 t3202.a0))
% 32.25/32.47 (step t3202.t19 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule resolution :premises (t3202.t16 t3202.t18))
% 32.25/32.47 (step t3202 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule subproof :discharge (t3202.a0 t3202.a1 t3202.a2 t3202.a3 t3202.a4 t3202.a5))
% 32.25/32.47 (step t3203 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t3204 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t3205 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3206 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t3207 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t3208 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.47 (step t3209 (cl (= tptp.e20 (tptp.h2 tptp.e13)) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3202 t3203 t3204 t3205 t3206 t3207 t3208))
% 32.25/32.47 (step t3210 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule reordering :premises (t3209))
% 32.25/32.47 (step t3211 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule contraction :premises (t3210))
% 32.25/32.47 (step t3212 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule resolution :premises (t3201 t3211))
% 32.25/32.47 (step t3213 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.h2 tptp.e13)))) :rule implies_neg2)
% 32.25/32.47 (step t3214 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13)))) :rule resolution :premises (t3212 t3213))
% 32.25/32.47 (step t3215 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13)))) :rule contraction :premises (t3214))
% 32.25/32.47 (step t3216 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule implies :premises (t3215))
% 32.25/32.47 (step t3217 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e20 (tptp.h2 tptp.e13))) :rule resolution :premises (t3200 t3216))
% 32.25/32.47 (step t3218 (cl (= tptp.e20 (tptp.h2 tptp.e13)) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3217))
% 32.25/32.47 (step t3219 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3164 t2076 t2077 t2114 t2115 t2153 t2154 t3165 t3180 t3181 t3198 t864 t777 t3199 t3218 t865 t776 t801))
% 32.25/32.47 (step t3220 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule contraction :premises (t3219))
% 32.25/32.47 (step t3221 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t3220 t799 t2311 t767 t768 t2312 t461 t778))
% 32.25/32.47 (step t3222 (cl (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule reordering :premises (t3221))
% 32.25/32.47 (step t3223 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule resolution :premises (t2489 t3222))
% 32.25/32.47 (step t3224 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))) :rule contraction :premises (t3223))
% 32.25/32.47 (step t3225 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.25/32.47 (step t3226 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3227)
% 32.25/32.47 (assume t3227.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.47 (assume t3227.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t3227.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.47 (assume t3227.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.47 (assume t3227.a4 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))
% 32.25/32.47 (assume t3227.a5 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.25/32.47 (assume t3227.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (assume t3227.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.47 (assume t3227.a8 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.47 (assume t3227.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.47 (step t3227.t1 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule implies_neg1)
% 32.25/32.47 (anchor :step t3227.t2)
% 32.25/32.47 (assume t3227.t2.a0 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.25/32.47 (assume t3227.t2.a1 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.25/32.47 (assume t3227.t2.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.25/32.47 (assume t3227.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.25/32.47 (assume t3227.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.25/32.47 (assume t3227.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.25/32.47 (assume t3227.t2.a6 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.25/32.47 (assume t3227.t2.a7 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.25/32.47 (assume t3227.t2.a8 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.25/32.47 (assume t3227.t2.a9 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))
% 32.25/32.47 (step t3227.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10)) :rule symm :premises (t3227.t2.a9))
% 32.25/32.47 (step t3227.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.h2 tptp.e10))) :rule cong :premises (t3227.t2.t1))
% 32.25/32.47 (step t3227.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t3227.t2.a8))
% 32.25/32.47 (step t3227.t2.t4 (cl (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule symm :premises (t3227.t2.t3))
% 32.25/32.47 (step t3227.t2.t5 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3227.t2.a3))
% 32.25/32.47 (step t3227.t2.t6 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.25/32.47 (step t3227.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t3227.t2.t5 t3227.t2.t6))
% 32.25/32.47 (step t3227.t2.t8 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.25/32.47 (step t3227.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule cong :premises (t3227.t2.t8 t3227.t2.a4))
% 32.25/32.47 (step t3227.t2.t10 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3227.t2.a7))
% 32.25/32.47 (step t3227.t2.t11 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3227.t2.t10))
% 32.25/32.47 (step t3227.t2.t12 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3227.t2.t11))
% 32.25/32.47 (step t3227.t2.t13 (cl (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23)) :rule symm :premises (t3227.t2.a6))
% 32.25/32.47 (step t3227.t2.t14 (cl (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule symm :premises (t3227.t2.t13))
% 32.25/32.47 (step t3227.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3227.t2.a5))
% 32.25/32.47 (step t3227.t2.t16 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3227.t2.t15))
% 32.25/32.47 (step t3227.t2.t17 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3227.t2.a4))
% 32.25/32.47 (step t3227.t2.t18 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t3227.t2.t17 t3227.t2.t8))
% 32.25/32.47 (step t3227.t2.t19 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3227.t2.t5))
% 32.25/32.47 (step t3227.t2.t20 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t3227.t2.t19 t3227.t2.a2))
% 32.25/32.47 (step t3227.t2.t21 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t3227.t2.a0 t3227.t2.t20))
% 32.25/32.47 (step t3227.t2.t22 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t3227.t2.a0))
% 32.25/32.47 (step t3227.t2.t23 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3227.t2.a2))
% 32.25/32.47 (step t3227.t2.t24 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t3227.t2.t22 t3227.t2.t23))
% 32.25/32.47 (step t3227.t2.t25 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t3227.t2.a1))
% 32.25/32.47 (step t3227.t2.t26 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t3227.t2.t25))
% 32.25/32.47 (step t3227.t2.t27 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t3227.t2.t16 t3227.t2.t18 t3227.t2.t21 t3227.t2.t24 t3227.t2.t26))
% 32.25/32.47 (step t3227.t2.t28 (cl (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule cong :premises (t3227.t2.a0 t3227.t2.t27))
% 32.25/32.47 (step t3227.t2.t29 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule trans :premises (t3227.t2.t2 t3227.t2.t4 t3227.t2.t7 t3227.t2.t9 t3227.t2.t12 t3227.t2.t14 t3227.t2.t28))
% 32.25/32.47 (step t3227.t2 (cl (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t3227.t2.a0 t3227.t2.a1 t3227.t2.a2 t3227.t2.a3 t3227.t2.a4 t3227.t2.a5 t3227.t2.a6 t3227.t2.a7 t3227.t2.a8 t3227.t2.a9))
% 32.25/32.47 (step t3227.t3 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.25/32.47 (step t3227.t4 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.25/32.47 (step t3227.t5 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.25/32.47 (step t3227.t6 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3227.t7 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t3227.t8 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.25/32.47 (step t3227.t9 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.25/32.47 (step t3227.t10 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.25/32.47 (step t3227.t11 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.25/32.47 (step t3227.t12 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.25/32.47 (step t3227.t13 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t3227.t2 t3227.t3 t3227.t4 t3227.t5 t3227.t6 t3227.t7 t3227.t8 t3227.t9 t3227.t10 t3227.t11 t3227.t12))
% 32.25/32.47 (step t3227.t14 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3227.t13))
% 32.25/32.47 (step t3227.t15 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule contraction :premises (t3227.t14))
% 32.25/32.47 (step t3227.t16 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule resolution :premises (t3227.t1 t3227.t15))
% 32.25/32.47 (step t3227.t17 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.25/32.47 (step t3227.t18 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3227.t16 t3227.t17))
% 32.29/32.47 (step t3227.t19 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))))) :rule contraction :premises (t3227.t18))
% 32.29/32.47 (step t3227.t20 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule implies :premises (t3227.t19))
% 32.29/32.47 (step t3227.t21 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule and_neg)
% 32.29/32.47 (step t3227.t22 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t3227.t21 t3227.a7 t3227.a9 t3227.a8 t3227.a6 t3227.a1 t3227.a0 t3227.a5 t3227.a2 t3227.a3 t3227.a4))
% 32.29/32.47 (step t3227.t23 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule resolution :premises (t3227.t20 t3227.t22))
% 32.29/32.47 (step t3227 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t3227.a0 t3227.a1 t3227.a2 t3227.a3 t3227.a4 t3227.a5 t3227.a6 t3227.a7 t3227.a8 t3227.a9))
% 32.29/32.47 (step t3228 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.47 (step t3229 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.47 (step t3230 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.47 (step t3231 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3232 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.29/32.47 (step t3233 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.47 (step t3234 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3235 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.47 (step t3236 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.47 (step t3237 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.47 (step t3238 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3227 t3228 t3229 t3230 t3231 t3232 t3233 t3234 t3235 t3236 t3237))
% 32.29/32.47 (step t3239 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3238))
% 32.29/32.47 (step t3240 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule contraction :premises (t3239))
% 32.29/32.47 (step t3241 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule resolution :premises (t3226 t3240))
% 32.29/32.47 (step t3242 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.29/32.47 (step t3243 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3241 t3242))
% 32.29/32.47 (step t3244 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))))) :rule contraction :premises (t3243))
% 32.29/32.47 (step t3245 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule implies :premises (t3244))
% 32.29/32.47 (step t3246 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13)))) :rule resolution :premises (t3225 t3245))
% 32.29/32.47 (step t3247 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3246))
% 32.29/32.47 (step t3248 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.29/32.47 (step t3249 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.29/32.47 (anchor :step t3250)
% 32.29/32.47 (assume t3250.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.47 (assume t3250.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.47 (assume t3250.a2 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))
% 32.29/32.47 (assume t3250.a3 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))
% 32.29/32.47 (assume t3250.a4 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.47 (assume t3250.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.47 (assume t3250.a6 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.47 (step t3250.t1 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule implies_neg1)
% 32.29/32.47 (anchor :step t3250.t2)
% 32.29/32.47 (assume t3250.t2.a0 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.47 (assume t3250.t2.a1 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.47 (assume t3250.t2.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.47 (assume t3250.t2.a3 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))
% 32.29/32.47 (assume t3250.t2.a4 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.47 (assume t3250.t2.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.47 (assume t3250.t2.a6 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))
% 32.29/32.47 (step t3250.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e13) tptp.e10)) :rule symm :premises (t3250.t2.a6))
% 32.29/32.47 (step t3250.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.h5 tptp.e10))) :rule cong :premises (t3250.t2.t1))
% 32.29/32.47 (step t3250.t2.t3 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3250.t2.a5))
% 32.29/32.47 (step t3250.t2.t4 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t3250.t2.t3))
% 32.29/32.47 (step t3250.t2.t5 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3250.t2.t4))
% 32.29/32.47 (step t3250.t2.t6 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3250.t2.a4))
% 32.29/32.47 (step t3250.t2.t7 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3250.t2.t6))
% 32.29/32.47 (step t3250.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3250.t2.t7))
% 32.29/32.47 (step t3250.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20)) :rule symm :premises (t3250.t2.a3))
% 32.29/32.47 (step t3250.t2.t10 (cl (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule symm :premises (t3250.t2.t9))
% 32.29/32.47 (step t3250.t2.t11 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t3250.t2.a0))
% 32.29/32.47 (step t3250.t2.t12 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule symm :premises (t3250.t2.t11))
% 32.29/32.47 (step t3250.t2.t13 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3250.t2.a2))
% 32.29/32.47 (step t3250.t2.t14 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3250.t2.t13))
% 32.29/32.47 (step t3250.t2.t15 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3250.t2.a1))
% 32.29/32.47 (step t3250.t2.t16 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t3250.t2.t15))
% 32.29/32.47 (step t3250.t2.t17 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t3250.t2.t14 t3250.t2.t16))
% 32.29/32.47 (step t3250.t2.t18 (cl (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule cong :premises (t3250.t2.t12 t3250.t2.t17))
% 32.29/32.47 (step t3250.t2.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule trans :premises (t3250.t2.t2 t3250.t2.t5 t3250.t2.t8 t3250.t2.t10 t3250.t2.t18))
% 32.29/32.47 (step t3250.t2 (cl (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t3250.t2.a0 t3250.t2.a1 t3250.t2.a2 t3250.t2.a3 t3250.t2.a4 t3250.t2.a5 t3250.t2.a6))
% 32.29/32.47 (step t3250.t3 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.47 (step t3250.t4 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.47 (step t3250.t5 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.47 (step t3250.t6 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule and_pos)
% 32.29/32.47 (step t3250.t7 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.47 (step t3250.t8 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.47 (step t3250.t9 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.29/32.47 (step t3250.t10 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t3250.t2 t3250.t3 t3250.t4 t3250.t5 t3250.t6 t3250.t7 t3250.t8 t3250.t9))
% 32.29/32.47 (step t3250.t11 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule reordering :premises (t3250.t10))
% 32.29/32.47 (step t3250.t12 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule contraction :premises (t3250.t11))
% 32.29/32.47 (step t3250.t13 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule resolution :premises (t3250.t1 t3250.t12))
% 32.29/32.47 (step t3250.t14 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.29/32.47 (step t3250.t15 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule resolution :premises (t3250.t13 t3250.t14))
% 32.29/32.47 (step t3250.t16 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule contraction :premises (t3250.t15))
% 32.29/32.47 (step t3250.t17 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule implies :premises (t3250.t16))
% 32.29/32.47 (step t3250.t18 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule and_neg)
% 32.29/32.47 (step t3250.t19 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t3250.t18 t3250.a4 t3250.a6 t3250.a1 t3250.a3 t3250.a0 t3250.a5 t3250.a2))
% 32.29/32.47 (step t3250.t20 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule resolution :premises (t3250.t17 t3250.t19))
% 32.29/32.47 (step t3250 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t3250.a0 t3250.a1 t3250.a2 t3250.a3 t3250.a4 t3250.a5 t3250.a6))
% 32.29/32.47 (step t3251 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.47 (step t3252 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.47 (step t3253 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.29/32.47 (step t3254 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule and_pos)
% 32.29/32.47 (step t3255 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.47 (step t3256 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.47 (step t3257 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.47 (step t3258 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t3250 t3251 t3252 t3253 t3254 t3255 t3256 t3257))
% 32.29/32.47 (step t3259 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule reordering :premises (t3258))
% 32.29/32.47 (step t3260 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule contraction :premises (t3259))
% 32.29/32.47 (step t3261 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule resolution :premises (t3249 t3260))
% 32.29/32.47 (step t3262 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.29/32.47 (step t3263 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule resolution :premises (t3261 t3262))
% 32.29/32.47 (step t3264 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))))) :rule contraction :premises (t3263))
% 32.29/32.47 (step t3265 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule implies :premises (t3264))
% 32.29/32.47 (step t3266 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13)))) :rule resolution :premises (t3248 t3265))
% 32.29/32.47 (step t3267 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t3266))
% 32.29/32.47 (step t3268 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))) :rule resolution :premises (t3224 t3247 t801 t778 t777 t776 t864 t461 t865 t3267 t1588 t1565 t1564 t864 t865))
% 32.29/32.47 (step t3269 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))) :rule contraction :premises (t3268))
% 32.29/32.47 (step t3270 (cl (or (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule and :premises (t1107))
% 32.29/32.47 (step t3271 (cl (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) :rule or :premises (t3270))
% 32.29/32.47 (step t3272 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t2038 t799 t767 t2039))
% 32.29/32.47 (step t3273 (cl (not (= (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))))) (not (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.47 (step t3274 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule refl)
% 32.29/32.47 (step t3275 (cl (= (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))))) :rule cong :premises (t2126 t1111 t3274))
% 32.29/32.47 (step t3276 (cl (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.47 (step t3277 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.47 (anchor :step t3278)
% 32.29/32.47 (assume t3278.a0 (not (= tptp.e10 tptp.e11)))
% 32.29/32.47 (assume t3278.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.47 (step t3278.t1 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.47 (anchor :step t3278.t2)
% 32.29/32.47 (assume t3278.t2.a0 (not (= tptp.e10 tptp.e11)))
% 32.29/32.47 (assume t3278.t2.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.47 (step t3278.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) false) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.47 (step t3278.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) false)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule equiv1 :premises (t3278.t2.t1))
% 32.29/32.47 (step t3278.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.47 (step t3278.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t3278.t2.a1))
% 32.29/32.47 (step t3278.t2.t5 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t3278.t2.t4))
% 32.29/32.47 (step t3278.t2.t6 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t3278.t2.t5))
% 32.29/32.47 (step t3278.t2.t7 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.e11))) :rule cong :premises (t3278.t2.t3 t3278.t2.t6))
% 32.29/32.47 (step t3278.t2.t8 (cl (= (= (= tptp.e10 tptp.e11) false) (not (= tptp.e10 tptp.e11)))) :rule equiv_simplify)
% 32.29/32.47 (step t3278.t2.t9 (cl (= (= tptp.e10 tptp.e11) false) (not (not (= tptp.e10 tptp.e11)))) :rule equiv2 :premises (t3278.t2.t8))
% 32.29/32.47 (step t3278.t2.t10 (cl (not (not (not (= tptp.e10 tptp.e11)))) (= tptp.e10 tptp.e11)) :rule not_not)
% 32.29/32.47 (step t3278.t2.t11 (cl (= (= tptp.e10 tptp.e11) false) (= tptp.e10 tptp.e11)) :rule resolution :premises (t3278.t2.t9 t3278.t2.t10))
% 32.29/32.47 (step t3278.t2.t12 (cl (= (= tptp.e10 tptp.e11) false)) :rule resolution :premises (t3278.t2.t11 t3278.t2.a0))
% 32.29/32.47 (step t3278.t2.t13 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) false)) :rule trans :premises (t3278.t2.t7 t3278.t2.t12))
% 32.29/32.47 (step t3278.t2.t14 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3278.t2.t2 t3278.t2.t13))
% 32.29/32.47 (step t3278.t2 (cl (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t3278.t2.a0 t3278.t2.a1))
% 32.29/32.47 (step t3278.t3 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.47 (step t3278.t4 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.47 (step t3278.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3278.t2 t3278.t3 t3278.t4))
% 32.29/32.47 (step t3278.t6 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t3278.t5))
% 32.29/32.47 (step t3278.t7 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t3278.t6))
% 32.29/32.47 (step t3278.t8 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3278.t1 t3278.t7))
% 32.29/32.47 (step t3278.t9 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.47 (step t3278.t10 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3278.t8 t3278.t9))
% 32.29/32.47 (step t3278.t11 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t3278.t10))
% 32.29/32.47 (step t3278.t12 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t3278.t11))
% 32.29/32.47 (step t3278.t13 (cl (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.47 (step t3278.t14 (cl (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3278.t13 t3278.a0 t3278.a1))
% 32.29/32.47 (step t3278.t15 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3278.t12 t3278.t14))
% 32.29/32.47 (step t3278 (cl (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t3278.a0 t3278.a1))
% 32.29/32.47 (step t3279 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.47 (step t3280 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.47 (step t3281 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3278 t3279 t3280))
% 32.29/32.47 (step t3282 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t3281))
% 32.29/32.47 (step t3283 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t3282))
% 32.29/32.47 (step t3284 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3277 t3283))
% 32.29/32.47 (step t3285 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.47 (step t3286 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3284 t3285))
% 32.29/32.47 (step t3287 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t3286))
% 32.29/32.47 (step t3288 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t3287))
% 32.29/32.47 (step t3289 (cl (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3276 t3288))
% 32.29/32.47 (step t3290 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (not (= tptp.e10 tptp.e11))))) :rule or_neg)
% 32.29/32.47 (step t3291 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.47 (step t3292 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.47 (step t3293 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3289 t3290 t3291 t3292))
% 32.29/32.47 (step t3294 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t3293))
% 32.29/32.47 (step t3295 (cl (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3273 t3275 t3294))
% 32.29/32.47 (step t3296 (cl (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule or :premises (t3295))
% 32.29/32.47 (step t3297 (cl (= tptp.e10 tptp.e11) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t3296))
% 32.29/32.47 (step t3298 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3297 t2154 t767))
% 32.29/32.47 (step t3299 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.47 (step t3300 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.47 (anchor :step t3301)
% 32.29/32.47 (assume t3301.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.47 (assume t3301.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.47 (assume t3301.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.47 (assume t3301.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.47 (assume t3301.a4 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.47 (assume t3301.a5 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.47 (assume t3301.a6 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.47 (assume t3301.a7 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.47 (assume t3301.a8 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.47 (assume t3301.a9 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.47 (assume t3301.a10 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.47 (assume t3301.a11 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.47 (step t3301.t1 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg1)
% 32.29/32.47 (anchor :step t3301.t2)
% 32.29/32.47 (assume t3301.t2.a0 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.47 (assume t3301.t2.a1 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.47 (assume t3301.t2.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.47 (assume t3301.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.47 (assume t3301.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.47 (assume t3301.t2.a5 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.47 (assume t3301.t2.a6 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.47 (assume t3301.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.47 (assume t3301.t2.a8 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.47 (assume t3301.t2.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.47 (assume t3301.t2.a10 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.47 (assume t3301.t2.a11 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.47 (step t3301.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12)) :rule symm :premises (t3301.t2.a11))
% 32.29/32.47 (step t3301.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.h2 tptp.e12))) :rule cong :premises (t3301.t2.t1))
% 32.29/32.47 (step t3301.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t3301.t2.a10))
% 32.29/32.47 (step t3301.t2.t4 (cl (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule symm :premises (t3301.t2.t3))
% 32.29/32.47 (step t3301.t2.t5 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t3301.t2.a9))
% 32.29/32.47 (step t3301.t2.t6 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t3301.t2.t5))
% 32.29/32.47 (step t3301.t2.t7 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t3301.t2.t6))
% 32.29/32.47 (step t3301.t2.t8 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t3301.t2.a0))
% 32.29/32.47 (step t3301.t2.t9 (cl (= tptp.e21 (tptp.h2 tptp.e14))) :rule symm :premises (t3301.t2.t8))
% 32.29/32.47 (step t3301.t2.t10 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t3301.t2.t9 t3301.t2.a2))
% 32.29/32.47 (step t3301.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3301.t2.a3))
% 32.29/32.47 (step t3301.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3301.t2.t11))
% 32.29/32.47 (step t3301.t2.t13 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t3301.t2.t12 t3301.t2.a2))
% 32.29/32.47 (step t3301.t2.t14 (cl (= (tptp.h2 tptp.e11) tptp.e24)) :rule symm :premises (t3301.t2.t13))
% 32.29/32.47 (step t3301.t2.t15 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t3301.t2.t8 t3301.t2.t14))
% 32.29/32.47 (step t3301.t2.t16 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.47 (step t3301.t2.t17 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule cong :premises (t3301.t2.a4 t3301.t2.t16))
% 32.29/32.47 (step t3301.t2.t18 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3301.t2.a8))
% 32.29/32.47 (step t3301.t2.t19 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3301.t2.t18))
% 32.29/32.47 (step t3301.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3301.t2.t19))
% 32.29/32.47 (step t3301.t2.t21 (cl (= (tptp.h2 tptp.e13) tptp.e20)) :rule trans :premises (t3301.t2.t7 t3301.t2.t10 t3301.t2.t15 t3301.t2.t17 t3301.t2.t20))
% 32.29/32.47 (step t3301.t2.t22 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e20)) :rule trans :premises (t3301.t2.t6 t3301.t2.t21))
% 32.29/32.47 (step t3301.t2.t23 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.47 (step t3301.t2.t24 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule cong :premises (t3301.t2.t22 t3301.t2.t23))
% 32.29/32.47 (step t3301.t2.t25 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t3301.t2.a7))
% 32.29/32.47 (step t3301.t2.t26 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t3301.t2.t25))
% 32.29/32.47 (step t3301.t2.t27 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t3301.t2.t26))
% 32.29/32.47 (step t3301.t2.t28 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t3301.t2.a6))
% 32.29/32.47 (step t3301.t2.t29 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t3301.t2.t28))
% 32.29/32.47 (step t3301.t2.t30 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3301.t2.a5))
% 32.29/32.47 (step t3301.t2.t31 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3301.t2.t30))
% 32.29/32.47 (step t3301.t2.t32 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3301.t2.a4))
% 32.29/32.47 (step t3301.t2.t33 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t3301.t2.t16 t3301.t2.t32))
% 32.29/32.47 (step t3301.t2.t34 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t3301.t2.t12 t3301.t2.t23))
% 32.29/32.47 (step t3301.t2.t35 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t3301.t2.a1))
% 32.29/32.47 (step t3301.t2.t36 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t3301.t2.t31 t3301.t2.t33 t3301.t2.t34 t3301.t2.t35))
% 32.29/32.47 (step t3301.t2.t37 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule cong :premises (t3301.t2.t9 t3301.t2.t36))
% 32.29/32.47 (step t3301.t2.t38 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule trans :premises (t3301.t2.t2 t3301.t2.t4 t3301.t2.t24 t3301.t2.t27 t3301.t2.t29 t3301.t2.t37))
% 32.29/32.47 (step t3301.t2 (cl (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t3301.t2.a0 t3301.t2.a1 t3301.t2.a2 t3301.t2.a3 t3301.t2.a4 t3301.t2.a5 t3301.t2.a6 t3301.t2.a7 t3301.t2.a8 t3301.t2.a9 t3301.t2.a10 t3301.t2.a11))
% 32.29/32.47 (step t3301.t3 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.47 (step t3301.t4 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3301.t5 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.47 (step t3301.t6 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3301.t7 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.47 (step t3301.t8 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.47 (step t3301.t9 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.47 (step t3301.t10 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3301.t11 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.47 (step t3301.t12 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.47 (step t3301.t13 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3301.t14 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.47 (step t3301.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t3301.t2 t3301.t3 t3301.t4 t3301.t5 t3301.t6 t3301.t7 t3301.t8 t3301.t9 t3301.t10 t3301.t11 t3301.t12 t3301.t13 t3301.t14))
% 32.29/32.47 (step t3301.t16 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule reordering :premises (t3301.t15))
% 32.29/32.47 (step t3301.t17 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule contraction :premises (t3301.t16))
% 32.29/32.47 (step t3301.t18 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule resolution :premises (t3301.t1 t3301.t17))
% 32.29/32.47 (step t3301.t19 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.29/32.47 (step t3301.t20 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))))) :rule resolution :premises (t3301.t18 t3301.t19))
% 32.29/32.47 (step t3301.t21 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))))) :rule contraction :premises (t3301.t20))
% 32.29/32.47 (step t3301.t22 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule implies :premises (t3301.t21))
% 32.29/32.47 (step t3301.t23 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule and_neg)
% 32.29/32.47 (step t3301.t24 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t3301.t23 t3301.a9 t3301.a3 t3301.a10 t3301.a7 t3301.a1 t3301.a2 t3301.a8 t3301.a6 t3301.a0 t3301.a11 t3301.a4 t3301.a5))
% 32.29/32.47 (step t3301.t25 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule resolution :premises (t3301.t22 t3301.t24))
% 32.29/32.47 (step t3301 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t3301.a0 t3301.a1 t3301.a2 t3301.a3 t3301.a4 t3301.a5 t3301.a6 t3301.a7 t3301.a8 t3301.a9 t3301.a10 t3301.a11))
% 32.29/32.47 (step t3302 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.47 (step t3303 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.47 (step t3304 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.47 (step t3305 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3306 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3307 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.47 (step t3308 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3309 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.47 (step t3310 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.47 (step t3311 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.47 (step t3312 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.47 (step t3313 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.47 (step t3314 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3301 t3302 t3303 t3304 t3305 t3306 t3307 t3308 t3309 t3310 t3311 t3312 t3313))
% 32.29/32.47 (step t3315 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule reordering :premises (t3314))
% 32.29/32.48 (step t3316 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule contraction :premises (t3315))
% 32.29/32.48 (step t3317 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule resolution :premises (t3300 t3316))
% 32.29/32.48 (step t3318 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.29/32.48 (step t3319 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))))) :rule resolution :premises (t3317 t3318))
% 32.29/32.48 (step t3320 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))))) :rule contraction :premises (t3319))
% 32.29/32.48 (step t3321 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule implies :premises (t3320))
% 32.29/32.48 (step t3322 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10)))) :rule resolution :premises (t3299 t3321))
% 32.29/32.48 (step t3323 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3322))
% 32.29/32.48 (step t3324 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.29/32.48 (step t3325 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3326)
% 32.29/32.48 (assume t3326.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3326.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.48 (assume t3326.a2 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.48 (assume t3326.a3 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.48 (assume t3326.a4 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.48 (assume t3326.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.48 (assume t3326.a6 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.48 (step t3326.t1 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3326.t2)
% 32.29/32.48 (assume t3326.t2.a0 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.48 (assume t3326.t2.a1 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.48 (assume t3326.t2.a2 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3326.t2.a3 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.48 (assume t3326.t2.a4 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.48 (assume t3326.t2.a5 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.48 (assume t3326.t2.a6 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.48 (step t3326.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12)) :rule symm :premises (t3326.t2.a6))
% 32.29/32.48 (step t3326.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.h5 tptp.e12))) :rule cong :premises (t3326.t2.t1))
% 32.29/32.48 (step t3326.t2.t3 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3326.t2.a5))
% 32.29/32.48 (step t3326.t2.t4 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t3326.t2.t3))
% 32.29/32.48 (step t3326.t2.t5 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3326.t2.t4))
% 32.29/32.48 (step t3326.t2.t6 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t3326.t2.a4))
% 32.29/32.48 (step t3326.t2.t7 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3326.t2.t6))
% 32.29/32.48 (step t3326.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t3326.t2.t7))
% 32.29/32.48 (step t3326.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) :rule symm :premises (t3326.t2.a3))
% 32.29/32.48 (step t3326.t2.t10 (cl (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule symm :premises (t3326.t2.t9))
% 32.29/32.48 (step t3326.t2.t11 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t3326.t2.a0))
% 32.29/32.48 (step t3326.t2.t12 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule symm :premises (t3326.t2.t11))
% 32.29/32.48 (step t3326.t2.t13 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3326.t2.a2))
% 32.29/32.48 (step t3326.t2.t14 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3326.t2.t13))
% 32.29/32.48 (step t3326.t2.t15 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3326.t2.a1))
% 32.29/32.48 (step t3326.t2.t16 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t3326.t2.t15))
% 32.29/32.48 (step t3326.t2.t17 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t3326.t2.t14 t3326.t2.t16))
% 32.29/32.48 (step t3326.t2.t18 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule cong :premises (t3326.t2.t12 t3326.t2.t17))
% 32.29/32.48 (step t3326.t2.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule trans :premises (t3326.t2.t2 t3326.t2.t5 t3326.t2.t8 t3326.t2.t10 t3326.t2.t18))
% 32.29/32.48 (step t3326.t2 (cl (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t3326.t2.a0 t3326.t2.a1 t3326.t2.a2 t3326.t2.a3 t3326.t2.a4 t3326.t2.a5 t3326.t2.a6))
% 32.29/32.48 (step t3326.t3 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3326.t4 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3326.t5 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3326.t6 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.48 (step t3326.t7 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3326.t8 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3326.t9 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3326.t10 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t3326.t2 t3326.t3 t3326.t4 t3326.t5 t3326.t6 t3326.t7 t3326.t8 t3326.t9))
% 32.29/32.48 (step t3326.t11 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule reordering :premises (t3326.t10))
% 32.29/32.48 (step t3326.t12 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule contraction :premises (t3326.t11))
% 32.29/32.48 (step t3326.t13 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule resolution :premises (t3326.t1 t3326.t12))
% 32.29/32.48 (step t3326.t14 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.29/32.48 (step t3326.t15 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))))) :rule resolution :premises (t3326.t13 t3326.t14))
% 32.29/32.48 (step t3326.t16 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))))) :rule contraction :premises (t3326.t15))
% 32.29/32.48 (step t3326.t17 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule implies :premises (t3326.t16))
% 32.29/32.48 (step t3326.t18 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule and_neg)
% 32.29/32.48 (step t3326.t19 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t3326.t18 t3326.a4 t3326.a5 t3326.a0 t3326.a3 t3326.a1 t3326.a6 t3326.a2))
% 32.29/32.48 (step t3326.t20 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule resolution :premises (t3326.t17 t3326.t19))
% 32.29/32.48 (step t3326 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t3326.a0 t3326.a1 t3326.a2 t3326.a3 t3326.a4 t3326.a5 t3326.a6))
% 32.29/32.48 (step t3327 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3328 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3329 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3330 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.48 (step t3331 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3332 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3333 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3334 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t3326 t3327 t3328 t3329 t3330 t3331 t3332 t3333))
% 32.29/32.48 (step t3335 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule reordering :premises (t3334))
% 32.29/32.48 (step t3336 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule contraction :premises (t3335))
% 32.29/32.48 (step t3337 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule resolution :premises (t3325 t3336))
% 32.29/32.48 (step t3338 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.29/32.48 (step t3339 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))))) :rule resolution :premises (t3337 t3338))
% 32.29/32.48 (step t3340 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))))) :rule contraction :premises (t3339))
% 32.29/32.48 (step t3341 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule implies :premises (t3340))
% 32.29/32.48 (step t3342 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10)))) :rule resolution :premises (t3324 t3341))
% 32.29/32.48 (step t3343 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t3342))
% 32.29/32.48 (step t3344 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.48 (step t3345 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3346)
% 32.29/32.48 (assume t3346.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3346.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3346.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.48 (assume t3346.a3 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.48 (assume t3346.a4 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.48 (assume t3346.a5 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3346.a6 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.48 (assume t3346.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t3346.a8 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (assume t3346.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.48 (step t3346.t1 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3346.t2)
% 32.29/32.48 (assume t3346.t2.a0 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (assume t3346.t2.a1 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3346.t2.a2 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.48 (assume t3346.t2.a3 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t3346.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3346.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3346.t2.a6 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.48 (assume t3346.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.48 (assume t3346.t2.a8 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.48 (assume t3346.t2.a9 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.48 (step t3346.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12)) :rule symm :premises (t3346.t2.a9))
% 32.29/32.48 (step t3346.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.h2 tptp.e12))) :rule cong :premises (t3346.t2.t1))
% 32.29/32.48 (step t3346.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t3346.t2.a8))
% 32.29/32.48 (step t3346.t2.t4 (cl (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule symm :premises (t3346.t2.t3))
% 32.29/32.48 (step t3346.t2.t5 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t3346.t2.a2))
% 32.29/32.48 (step t3346.t2.t6 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t3346.t2.t5))
% 32.29/32.48 (step t3346.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3346.t2.a5))
% 32.29/32.48 (step t3346.t2.t8 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3346.t2.t7))
% 32.29/32.48 (step t3346.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3346.t2.a4))
% 32.29/32.48 (step t3346.t2.t10 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.48 (step t3346.t2.t11 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t3346.t2.t9 t3346.t2.t10))
% 32.29/32.48 (step t3346.t2.t12 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3346.t2.a1))
% 32.29/32.48 (step t3346.t2.t13 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3346.t2.t12))
% 32.29/32.48 (step t3346.t2.t14 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t3346.t2.t13 t3346.t2.a0))
% 32.29/32.48 (step t3346.t2.t15 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t3346.t2.a3 t3346.t2.t14))
% 32.29/32.48 (step t3346.t2.t16 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t3346.t2.a3))
% 32.29/32.48 (step t3346.t2.t17 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3346.t2.a0))
% 32.29/32.48 (step t3346.t2.t18 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t3346.t2.t16 t3346.t2.t17))
% 32.29/32.48 (step t3346.t2.t19 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t3346.t2.t8 t3346.t2.t11 t3346.t2.t15 t3346.t2.t18 t3346.t2.t6))
% 32.29/32.48 (step t3346.t2.t20 (cl (= (tptp.h2 tptp.e13) tptp.e20)) :rule symm :premises (t3346.t2.t19))
% 32.29/32.48 (step t3346.t2.t21 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e20)) :rule trans :premises (t3346.t2.t6 t3346.t2.t20))
% 32.29/32.48 (step t3346.t2.t22 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.48 (step t3346.t2.t23 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule cong :premises (t3346.t2.t21 t3346.t2.t22))
% 32.29/32.48 (step t3346.t2.t24 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t3346.t2.a7))
% 32.29/32.48 (step t3346.t2.t25 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t3346.t2.t24))
% 32.29/32.48 (step t3346.t2.t26 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t3346.t2.t25))
% 32.29/32.48 (step t3346.t2.t27 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) :rule symm :premises (t3346.t2.a6))
% 32.29/32.48 (step t3346.t2.t28 (cl (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule symm :premises (t3346.t2.t27))
% 32.29/32.48 (step t3346.t2.t29 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule cong :premises (t3346.t2.t14 t3346.t2.t19))
% 32.29/32.48 (step t3346.t2.t30 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule trans :premises (t3346.t2.t2 t3346.t2.t4 t3346.t2.t23 t3346.t2.t26 t3346.t2.t28 t3346.t2.t29))
% 32.29/32.48 (step t3346.t2 (cl (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t3346.t2.a0 t3346.t2.a1 t3346.t2.a2 t3346.t2.a3 t3346.t2.a4 t3346.t2.a5 t3346.t2.a6 t3346.t2.a7 t3346.t2.a8 t3346.t2.a9))
% 32.29/32.48 (step t3346.t3 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3346.t4 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3346.t5 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3346.t6 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3346.t7 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3346.t8 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3346.t9 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.48 (step t3346.t10 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3346.t11 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3346.t12 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3346.t13 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule resolution :premises (t3346.t2 t3346.t3 t3346.t4 t3346.t5 t3346.t6 t3346.t7 t3346.t8 t3346.t9 t3346.t10 t3346.t11 t3346.t12))
% 32.29/32.48 (step t3346.t14 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3346.t13))
% 32.29/32.48 (step t3346.t15 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule contraction :premises (t3346.t14))
% 32.29/32.48 (step t3346.t16 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule resolution :premises (t3346.t1 t3346.t15))
% 32.29/32.48 (step t3346.t17 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.29/32.48 (step t3346.t18 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3346.t16 t3346.t17))
% 32.29/32.48 (step t3346.t19 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))))) :rule contraction :premises (t3346.t18))
% 32.29/32.48 (step t3346.t20 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule implies :premises (t3346.t19))
% 32.29/32.48 (step t3346.t21 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule and_neg)
% 32.29/32.48 (step t3346.t22 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t3346.t21 t3346.a8 t3346.a5 t3346.a9 t3346.a7 t3346.a1 t3346.a0 t3346.a6 t3346.a4 t3346.a2 t3346.a3))
% 32.29/32.48 (step t3346.t23 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule resolution :premises (t3346.t20 t3346.t22))
% 32.29/32.48 (step t3346 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t3346.a0 t3346.a1 t3346.a2 t3346.a3 t3346.a4 t3346.a5 t3346.a6 t3346.a7 t3346.a8 t3346.a9))
% 32.29/32.48 (step t3347 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3348 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3349 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3350 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3351 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3352 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3353 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.48 (step t3354 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3355 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3356 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3357 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3346 t3347 t3348 t3349 t3350 t3351 t3352 t3353 t3354 t3355 t3356))
% 32.29/32.48 (step t3358 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3357))
% 32.29/32.48 (step t3359 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule contraction :premises (t3358))
% 32.29/32.48 (step t3360 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule resolution :premises (t3345 t3359))
% 32.29/32.48 (step t3361 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.29/32.48 (step t3362 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3360 t3361))
% 32.29/32.48 (step t3363 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))))) :rule contraction :premises (t3362))
% 32.29/32.48 (step t3364 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule implies :premises (t3363))
% 32.29/32.48 (step t3365 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13)))) :rule resolution :premises (t3344 t3364))
% 32.29/32.48 (step t3366 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3365))
% 32.29/32.48 (step t3367 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.29/32.48 (step t3368 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3369)
% 32.29/32.48 (assume t3369.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3369.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.48 (assume t3369.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t3369.a3 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.48 (assume t3369.a4 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.48 (assume t3369.a5 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.48 (assume t3369.a6 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.48 (assume t3369.a7 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.48 (step t3369.t1 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3369.t2)
% 32.29/32.48 (assume t3369.t2.a0 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.48 (assume t3369.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3369.t2.a2 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.48 (assume t3369.t2.a3 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t3369.t2.a4 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.48 (assume t3369.t2.a5 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.48 (assume t3369.t2.a6 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.48 (assume t3369.t2.a7 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.48 (step t3369.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e13) tptp.e12)) :rule symm :premises (t3369.t2.a7))
% 32.29/32.48 (step t3369.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.h5 tptp.e12))) :rule cong :premises (t3369.t2.t1))
% 32.29/32.48 (step t3369.t2.t3 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3369.t2.a6))
% 32.29/32.48 (step t3369.t2.t4 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t3369.t2.t3))
% 32.29/32.48 (step t3369.t2.t5 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3369.t2.t4))
% 32.29/32.48 (step t3369.t2.t6 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t3369.t2.a5))
% 32.29/32.48 (step t3369.t2.t7 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3369.t2.t6))
% 32.29/32.48 (step t3369.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t3369.t2.t7))
% 32.29/32.48 (step t3369.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t3369.t2.a4))
% 32.29/32.48 (step t3369.t2.t10 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t3369.t2.t9))
% 32.29/32.48 (step t3369.t2.t11 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3369.t2.a1))
% 32.29/32.48 (step t3369.t2.t12 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t3369.t2.t11))
% 32.29/32.48 (step t3369.t2.t13 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t3369.t2.a0))
% 32.29/32.48 (step t3369.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t3369.t2.t13))
% 32.29/32.48 (step t3369.t2.t15 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t3369.t2.t12 t3369.t2.t14))
% 32.29/32.48 (step t3369.t2.t16 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3369.t2.a3))
% 32.29/32.48 (step t3369.t2.t17 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3369.t2.t16))
% 32.29/32.48 (step t3369.t2.t18 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3369.t2.a2))
% 32.29/32.48 (step t3369.t2.t19 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t3369.t2.t18))
% 32.29/32.48 (step t3369.t2.t20 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t3369.t2.t17 t3369.t2.t19))
% 32.29/32.48 (step t3369.t2.t21 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule cong :premises (t3369.t2.t15 t3369.t2.t20))
% 32.29/32.48 (step t3369.t2.t22 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule trans :premises (t3369.t2.t2 t3369.t2.t5 t3369.t2.t8 t3369.t2.t10 t3369.t2.t21))
% 32.29/32.48 (step t3369.t2 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t3369.t2.a0 t3369.t2.a1 t3369.t2.a2 t3369.t2.a3 t3369.t2.a4 t3369.t2.a5 t3369.t2.a6 t3369.t2.a7))
% 32.29/32.48 (step t3369.t3 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3369.t4 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3369.t5 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3369.t6 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t3369.t7 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.48 (step t3369.t8 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3369.t9 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3369.t10 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3369.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule resolution :premises (t3369.t2 t3369.t3 t3369.t4 t3369.t5 t3369.t6 t3369.t7 t3369.t8 t3369.t9 t3369.t10))
% 32.29/32.48 (step t3369.t12 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule reordering :premises (t3369.t11))
% 32.29/32.48 (step t3369.t13 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule contraction :premises (t3369.t12))
% 32.29/32.48 (step t3369.t14 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule resolution :premises (t3369.t1 t3369.t13))
% 32.29/32.48 (step t3369.t15 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.29/32.48 (step t3369.t16 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))))) :rule resolution :premises (t3369.t14 t3369.t15))
% 32.29/32.48 (step t3369.t17 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))))) :rule contraction :premises (t3369.t16))
% 32.29/32.48 (step t3369.t18 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule implies :premises (t3369.t17))
% 32.29/32.48 (step t3369.t19 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule and_neg)
% 32.29/32.48 (step t3369.t20 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t3369.t19 t3369.a5 t3369.a0 t3369.a7 t3369.a2 t3369.a4 t3369.a1 t3369.a6 t3369.a3))
% 32.29/32.48 (step t3369.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule resolution :premises (t3369.t18 t3369.t20))
% 32.29/32.48 (step t3369 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t3369.a0 t3369.a1 t3369.a2 t3369.a3 t3369.a4 t3369.a5 t3369.a6 t3369.a7))
% 32.29/32.48 (step t3370 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3371 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3372 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t3373 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3374 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.48 (step t3375 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3376 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3377 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3378 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t3369 t3370 t3371 t3372 t3373 t3374 t3375 t3376 t3377))
% 32.29/32.48 (step t3379 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule reordering :premises (t3378))
% 32.29/32.48 (step t3380 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule contraction :premises (t3379))
% 32.29/32.48 (step t3381 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule resolution :premises (t3368 t3380))
% 32.29/32.48 (step t3382 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.29/32.48 (step t3383 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))))) :rule resolution :premises (t3381 t3382))
% 32.29/32.48 (step t3384 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))))) :rule contraction :premises (t3383))
% 32.29/32.48 (step t3385 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule implies :premises (t3384))
% 32.29/32.48 (step t3386 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13)))) :rule resolution :premises (t3367 t3385))
% 32.29/32.48 (step t3387 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t3386))
% 32.29/32.48 (step t3388 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))) :rule resolution :premises (t3269 t3271 t3272 t3298 t3323 t801 t800 t778 t777 t776 t864 t461 t865 t3343 t1587 t1565 t1564 t1679 t865 t3366 t801 t800 t778 t776 t461 t865 t3387 t1588 t1587 t1566 t864 t1679 t461))
% 32.29/32.48 (step t3389 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule contraction :premises (t3388))
% 32.29/32.48 (step t3390 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.48 (step t3391 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3392)
% 32.29/32.48 (assume t3392.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3392.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3392.a2 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.48 (assume t3392.a3 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t3392.a4 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.48 (assume t3392.a5 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.48 (assume t3392.a6 (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))
% 32.29/32.48 (assume t3392.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.48 (assume t3392.a8 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3392.a9 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t3392.a10 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (assume t3392.a11 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.48 (step t3392.t1 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3392.t2)
% 32.29/32.48 (assume t3392.t2.a0 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.48 (assume t3392.t2.a1 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (assume t3392.t2.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3392.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3392.t2.a4 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t3392.t2.a5 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.48 (assume t3392.t2.a6 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.48 (assume t3392.t2.a7 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3392.t2.a8 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t3392.t2.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.48 (assume t3392.t2.a10 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.48 (assume t3392.t2.a11 (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))
% 32.29/32.48 (step t3392.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12)) :rule symm :premises (t3392.t2.a11))
% 32.29/32.48 (step t3392.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.h2 tptp.e12))) :rule cong :premises (t3392.t2.t1))
% 32.29/32.48 (step t3392.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t3392.t2.a10))
% 32.29/32.48 (step t3392.t2.t4 (cl (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule symm :premises (t3392.t2.t3))
% 32.29/32.48 (step t3392.t2.t5 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t3392.t2.a9))
% 32.29/32.48 (step t3392.t2.t6 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t3392.t2.t5))
% 32.29/32.48 (step t3392.t2.t7 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t3392.t2.t6))
% 32.29/32.48 (step t3392.t2.t8 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3392.t2.a1))
% 32.29/32.48 (step t3392.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule symm :premises (t3392.t2.t8))
% 32.29/32.48 (step t3392.t2.t10 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t3392.t2.a8 t3392.t2.t9))
% 32.29/32.48 (step t3392.t2.t11 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t3392.t2.a8))
% 32.29/32.48 (step t3392.t2.t12 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3392.t2.a2))
% 32.29/32.48 (step t3392.t2.t13 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3392.t2.t12))
% 32.29/32.48 (step t3392.t2.t14 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t3392.t2.t13 t3392.t2.t9))
% 32.29/32.48 (step t3392.t2.t15 (cl (= (tptp.h2 tptp.e11) tptp.e24)) :rule symm :premises (t3392.t2.t14))
% 32.29/32.48 (step t3392.t2.t16 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t3392.t2.t11 t3392.t2.t15))
% 32.29/32.48 (step t3392.t2.t17 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.48 (step t3392.t2.t18 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule cong :premises (t3392.t2.a3 t3392.t2.t17))
% 32.29/32.48 (step t3392.t2.t19 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3392.t2.a7))
% 32.29/32.48 (step t3392.t2.t20 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3392.t2.t19))
% 32.29/32.48 (step t3392.t2.t21 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3392.t2.t20))
% 32.29/32.48 (step t3392.t2.t22 (cl (= (tptp.h2 tptp.e13) tptp.e20)) :rule trans :premises (t3392.t2.t7 t3392.t2.t10 t3392.t2.t16 t3392.t2.t18 t3392.t2.t21))
% 32.29/32.48 (step t3392.t2.t23 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e20)) :rule trans :premises (t3392.t2.t6 t3392.t2.t22))
% 32.29/32.48 (step t3392.t2.t24 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.48 (step t3392.t2.t25 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule cong :premises (t3392.t2.t23 t3392.t2.t24))
% 32.29/32.48 (step t3392.t2.t26 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t3392.t2.a6))
% 32.29/32.48 (step t3392.t2.t27 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t3392.t2.t26))
% 32.29/32.48 (step t3392.t2.t28 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t3392.t2.t27))
% 32.29/32.48 (step t3392.t2.t29 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t3392.t2.a5))
% 32.29/32.48 (step t3392.t2.t30 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3392.t2.t29))
% 32.29/32.48 (step t3392.t2.t31 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3392.t2.a4))
% 32.29/32.48 (step t3392.t2.t32 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t3392.t2.t31 t3392.t2.t17))
% 32.29/32.48 (step t3392.t2.t33 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3392.t2.t31))
% 32.29/32.48 (step t3392.t2.t34 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3392.t2.a3))
% 32.29/32.48 (step t3392.t2.t35 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t3392.t2.t17 t3392.t2.t34))
% 32.29/32.48 (step t3392.t2.t36 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t3392.t2.t13 t3392.t2.t24))
% 32.29/32.48 (step t3392.t2.t37 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t3392.t2.a0))
% 32.29/32.48 (step t3392.t2.t38 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t3392.t2.t33 t3392.t2.t35 t3392.t2.t36 t3392.t2.t37))
% 32.29/32.48 (step t3392.t2.t39 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule cong :premises (t3392.t2.t38 t3392.t2.t14))
% 32.29/32.48 (step t3392.t2.t40 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule trans :premises (t3392.t2.t2 t3392.t2.t4 t3392.t2.t25 t3392.t2.t28 t3392.t2.t30 t3392.t2.t32 t3392.t2.t39))
% 32.29/32.48 (step t3392.t2 (cl (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t3392.t2.a0 t3392.t2.a1 t3392.t2.a2 t3392.t2.a3 t3392.t2.a4 t3392.t2.a5 t3392.t2.a6 t3392.t2.a7 t3392.t2.a8 t3392.t2.a9 t3392.t2.a10 t3392.t2.a11))
% 32.29/32.48 (step t3392.t3 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3392.t4 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3392.t5 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3392.t6 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3392.t7 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t3392.t8 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3392.t9 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3392.t10 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3392.t11 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3392.t12 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3392.t13 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3392.t14 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3392.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3392.t2 t3392.t3 t3392.t4 t3392.t5 t3392.t6 t3392.t7 t3392.t8 t3392.t9 t3392.t10 t3392.t11 t3392.t12 t3392.t13 t3392.t14))
% 32.29/32.48 (step t3392.t16 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule reordering :premises (t3392.t15))
% 32.29/32.48 (step t3392.t17 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule contraction :premises (t3392.t16))
% 32.29/32.48 (step t3392.t18 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3392.t1 t3392.t17))
% 32.29/32.48 (step t3392.t19 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3392.t20 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))))) :rule resolution :premises (t3392.t18 t3392.t19))
% 32.29/32.48 (step t3392.t21 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))))) :rule contraction :premises (t3392.t20))
% 32.29/32.48 (step t3392.t22 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule implies :premises (t3392.t21))
% 32.29/32.48 (step t3392.t23 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3392.t24 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3392.t23 t3392.a4 t3392.a10 t3392.a8 t3392.a1 t3392.a3 t3392.a2 t3392.a7 t3392.a0 t3392.a9 t3392.a11 t3392.a5 t3392.a6))
% 32.29/32.48 (step t3392.t25 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3392.t22 t3392.t24))
% 32.29/32.48 (step t3392 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t3392.a0 t3392.a1 t3392.a2 t3392.a3 t3392.a4 t3392.a5 t3392.a6 t3392.a7 t3392.a8 t3392.a9 t3392.a10 t3392.a11))
% 32.29/32.48 (step t3393 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3394 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3395 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3396 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t3397 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3398 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3399 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3400 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3401 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3402 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3403 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3404 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3405 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3392 t3393 t3394 t3395 t3396 t3397 t3398 t3399 t3400 t3401 t3402 t3403 t3404))
% 32.29/32.48 (step t3406 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule reordering :premises (t3405))
% 32.29/32.48 (step t3407 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule contraction :premises (t3406))
% 32.29/32.48 (step t3408 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3391 t3407))
% 32.29/32.48 (step t3409 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3410 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))))) :rule resolution :premises (t3408 t3409))
% 32.29/32.48 (step t3411 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))))) :rule contraction :premises (t3410))
% 32.29/32.48 (step t3412 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule implies :premises (t3411))
% 32.29/32.48 (step t3413 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3390 t3412))
% 32.29/32.48 (step t3414 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3413))
% 32.29/32.48 (step t3415 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.29/32.48 (step t3416 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3417)
% 32.29/32.48 (assume t3417.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3417.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3417.a2 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.48 (assume t3417.a3 (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))
% 32.29/32.48 (assume t3417.a4 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.48 (assume t3417.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.48 (assume t3417.a6 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.48 (assume t3417.a7 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.48 (step t3417.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3417.t2)
% 32.29/32.48 (assume t3417.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.48 (assume t3417.t2.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3417.t2.a2 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.48 (assume t3417.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3417.t2.a4 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.48 (assume t3417.t2.a5 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.48 (assume t3417.t2.a6 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.48 (assume t3417.t2.a7 (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))
% 32.29/32.48 (step t3417.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e11) tptp.e12)) :rule symm :premises (t3417.t2.a7))
% 32.29/32.48 (step t3417.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.h5 tptp.e12))) :rule cong :premises (t3417.t2.t1))
% 32.29/32.48 (step t3417.t2.t3 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3417.t2.a6))
% 32.29/32.48 (step t3417.t2.t4 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t3417.t2.t3))
% 32.29/32.48 (step t3417.t2.t5 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3417.t2.t4))
% 32.29/32.48 (step t3417.t2.t6 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t3417.t2.a5))
% 32.29/32.48 (step t3417.t2.t7 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t3417.t2.t6))
% 32.29/32.48 (step t3417.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t3417.t2.t7))
% 32.29/32.48 (step t3417.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t3417.t2.a4))
% 32.29/32.48 (step t3417.t2.t10 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t3417.t2.t9))
% 32.29/32.48 (step t3417.t2.t11 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3417.t2.a1))
% 32.29/32.48 (step t3417.t2.t12 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3417.t2.t11))
% 32.29/32.48 (step t3417.t2.t13 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3417.t2.a0))
% 32.29/32.48 (step t3417.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t3417.t2.t13))
% 32.29/32.48 (step t3417.t2.t15 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t3417.t2.t12 t3417.t2.t14))
% 32.29/32.48 (step t3417.t2.t16 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3417.t2.a3))
% 32.29/32.48 (step t3417.t2.t17 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t3417.t2.t16))
% 32.29/32.48 (step t3417.t2.t18 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t3417.t2.a2))
% 32.29/32.48 (step t3417.t2.t19 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t3417.t2.t18))
% 32.29/32.48 (step t3417.t2.t20 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t3417.t2.t17 t3417.t2.t19))
% 32.29/32.48 (step t3417.t2.t21 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule cong :premises (t3417.t2.t15 t3417.t2.t20))
% 32.29/32.48 (step t3417.t2.t22 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule trans :premises (t3417.t2.t2 t3417.t2.t5 t3417.t2.t8 t3417.t2.t10 t3417.t2.t21))
% 32.29/32.48 (step t3417.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t3417.t2.a0 t3417.t2.a1 t3417.t2.a2 t3417.t2.a3 t3417.t2.a4 t3417.t2.a5 t3417.t2.a6 t3417.t2.a7))
% 32.29/32.48 (step t3417.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3417.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3417.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3417.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3417.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3417.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3417.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3417.t10 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3417.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3417.t2 t3417.t3 t3417.t4 t3417.t5 t3417.t6 t3417.t7 t3417.t8 t3417.t9 t3417.t10))
% 32.29/32.48 (step t3417.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule reordering :premises (t3417.t11))
% 32.29/32.48 (step t3417.t13 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule contraction :premises (t3417.t12))
% 32.29/32.48 (step t3417.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule resolution :premises (t3417.t1 t3417.t13))
% 32.29/32.48 (step t3417.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3417.t16 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))))) :rule resolution :premises (t3417.t14 t3417.t15))
% 32.29/32.48 (step t3417.t17 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))))) :rule contraction :premises (t3417.t16))
% 32.29/32.48 (step t3417.t18 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule implies :premises (t3417.t17))
% 32.29/32.48 (step t3417.t19 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3417.t20 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3417.t19 t3417.a5 t3417.a0 t3417.a6 t3417.a1 t3417.a4 t3417.a2 t3417.a7 t3417.a3))
% 32.29/32.48 (step t3417.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule resolution :premises (t3417.t18 t3417.t20))
% 32.29/32.48 (step t3417 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t3417.a0 t3417.a1 t3417.a2 t3417.a3 t3417.a4 t3417.a5 t3417.a6 t3417.a7))
% 32.29/32.48 (step t3418 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3419 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3420 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3421 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3422 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3423 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3424 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3425 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3426 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t3417 t3418 t3419 t3420 t3421 t3422 t3423 t3424 t3425))
% 32.29/32.48 (step t3427 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule reordering :premises (t3426))
% 32.29/32.48 (step t3428 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule contraction :premises (t3427))
% 32.29/32.48 (step t3429 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule resolution :premises (t3416 t3428))
% 32.29/32.48 (step t3430 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3431 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))))) :rule resolution :premises (t3429 t3430))
% 32.29/32.48 (step t3432 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))))) :rule contraction :premises (t3431))
% 32.29/32.48 (step t3433 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule implies :premises (t3432))
% 32.29/32.48 (step t3434 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11)))) :rule resolution :premises (t3415 t3433))
% 32.29/32.48 (step t3435 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t3434))
% 32.29/32.48 (step t3436 (cl (not (= (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))))) (not (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.48 (step t3437 (cl (= (= (= (not (not (= tptp.e10 tptp.e12))) (= tptp.e10 tptp.e12)) true) (= (not (not (= tptp.e10 tptp.e12))) (= tptp.e10 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.48 (step t3438 (cl (not (= (= (not (not (= tptp.e10 tptp.e12))) (= tptp.e10 tptp.e12)) true)) (= (not (not (= tptp.e10 tptp.e12))) (= tptp.e10 tptp.e12))) :rule equiv1 :premises (t3437))
% 32.29/32.48 (step t3439 (cl (= (= (not (not (= tptp.e10 tptp.e12))) (= tptp.e10 tptp.e12)) (= (= tptp.e10 tptp.e12) (not (not (= tptp.e10 tptp.e12)))))) :rule all_simplify)
% 32.29/32.48 (step t3440 (cl (= (= tptp.e10 tptp.e12) (= tptp.e10 tptp.e12))) :rule refl)
% 32.29/32.48 (step t3441 (cl (= (not (not (= tptp.e10 tptp.e12))) (= tptp.e10 tptp.e12))) :rule all_simplify)
% 32.29/32.48 (step t3442 (cl (= (= (= tptp.e10 tptp.e12) (not (not (= tptp.e10 tptp.e12)))) (= (= tptp.e10 tptp.e12) (= tptp.e10 tptp.e12)))) :rule cong :premises (t3440 t3441))
% 32.29/32.48 (step t3443 (cl (= (= (= tptp.e10 tptp.e12) (= tptp.e10 tptp.e12)) true)) :rule all_simplify)
% 32.29/32.48 (step t3444 (cl (= (= (= tptp.e10 tptp.e12) (not (not (= tptp.e10 tptp.e12)))) true)) :rule trans :premises (t3442 t3443))
% 32.29/32.48 (step t3445 (cl (= (= (not (not (= tptp.e10 tptp.e12))) (= tptp.e10 tptp.e12)) true)) :rule trans :premises (t3439 t3444))
% 32.29/32.48 (step t3446 (cl (= (not (not (= tptp.e10 tptp.e12))) (= tptp.e10 tptp.e12))) :rule resolution :premises (t3438 t3445))
% 32.29/32.48 (step t3447 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))))) :rule refl)
% 32.29/32.48 (step t3448 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule refl)
% 32.29/32.48 (step t3449 (cl (= (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))))) :rule cong :premises (t3446 t3447 t3448))
% 32.29/32.48 (step t3450 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule and_neg)
% 32.29/32.48 (step t3451 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3452)
% 32.29/32.48 (assume t3452.a0 (not (= tptp.e10 tptp.e12)))
% 32.29/32.48 (assume t3452.a1 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.48 (step t3452.t1 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3452.t2)
% 32.29/32.48 (assume t3452.t2.a0 (not (= tptp.e10 tptp.e12)))
% 32.29/32.48 (assume t3452.t2.a1 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.48 (step t3452.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) false) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.48 (step t3452.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) false)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule equiv1 :premises (t3452.t2.t1))
% 32.29/32.48 (step t3452.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.48 (step t3452.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12)) :rule symm :premises (t3452.t2.a1))
% 32.29/32.48 (step t3452.t2.t5 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 tptp.e12))) :rule cong :premises (t3452.t2.t3 t3452.t2.t4))
% 32.29/32.48 (step t3452.t2.t6 (cl (= (= (= tptp.e10 tptp.e12) false) (not (= tptp.e10 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.48 (step t3452.t2.t7 (cl (= (= tptp.e10 tptp.e12) false) (not (not (= tptp.e10 tptp.e12)))) :rule equiv2 :premises (t3452.t2.t6))
% 32.29/32.48 (step t3452.t2.t8 (cl (not (not (not (= tptp.e10 tptp.e12)))) (= tptp.e10 tptp.e12)) :rule not_not)
% 32.29/32.48 (step t3452.t2.t9 (cl (= (= tptp.e10 tptp.e12) false) (= tptp.e10 tptp.e12)) :rule resolution :premises (t3452.t2.t7 t3452.t2.t8))
% 32.29/32.48 (step t3452.t2.t10 (cl (= (= tptp.e10 tptp.e12) false)) :rule resolution :premises (t3452.t2.t9 t3452.t2.a0))
% 32.29/32.48 (step t3452.t2.t11 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) false)) :rule trans :premises (t3452.t2.t5 t3452.t2.t10))
% 32.29/32.48 (step t3452.t2.t12 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t3452.t2.t2 t3452.t2.t11))
% 32.29/32.48 (step t3452.t2 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule subproof :discharge (t3452.t2.a0 t3452.t2.a1))
% 32.29/32.48 (step t3452.t3 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3452.t4 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3452.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t3452.t2 t3452.t3 t3452.t4))
% 32.29/32.48 (step t3452.t6 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule reordering :premises (t3452.t5))
% 32.29/32.48 (step t3452.t7 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t3452.t6))
% 32.29/32.48 (step t3452.t8 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t3452.t1 t3452.t7))
% 32.29/32.48 (step t3452.t9 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg2)
% 32.29/32.48 (step t3452.t10 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t3452.t8 t3452.t9))
% 32.29/32.48 (step t3452.t11 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t3452.t10))
% 32.29/32.48 (step t3452.t12 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies :premises (t3452.t11))
% 32.29/32.48 (step t3452.t13 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule and_neg)
% 32.29/32.48 (step t3452.t14 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t3452.t13 t3452.a0 t3452.a1))
% 32.29/32.48 (step t3452.t15 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t3452.t12 t3452.t14))
% 32.29/32.48 (step t3452 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule subproof :discharge (t3452.a0 t3452.a1))
% 32.29/32.48 (step t3453 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3454 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3455 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t3452 t3453 t3454))
% 32.29/32.48 (step t3456 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule reordering :premises (t3455))
% 32.29/32.48 (step t3457 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t3456))
% 32.29/32.48 (step t3458 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t3451 t3457))
% 32.29/32.48 (step t3459 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg2)
% 32.29/32.48 (step t3460 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t3458 t3459))
% 32.29/32.48 (step t3461 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t3460))
% 32.29/32.48 (step t3462 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies :premises (t3461))
% 32.29/32.48 (step t3463 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t3450 t3462))
% 32.29/32.48 (step t3464 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (not (= tptp.e10 tptp.e12))))) :rule or_neg)
% 32.29/32.48 (step t3465 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))))) :rule or_neg)
% 32.29/32.48 (step t3466 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule or_neg)
% 32.29/32.48 (step t3467 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t3463 t3464 t3465 t3466))
% 32.29/32.48 (step t3468 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t3467))
% 32.29/32.48 (step t3469 (cl (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t3436 t3449 t3468))
% 32.29/32.48 (step t3470 (cl (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule or :premises (t3469))
% 32.29/32.48 (step t3471 (cl (= tptp.e10 tptp.e12) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule reordering :premises (t3470))
% 32.29/32.48 (step t3472 (cl (not (= tptp.e10 tptp.e12))) :rule and :premises (a8))
% 32.29/32.48 (step t3473 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t3389 t3414 t801 t800 t778 t777 t776 t864 t1679 t461 t865 t3435 t1587 t1566 t1565 t1679 t461 t865 t3471 t3472))
% 32.29/32.48 (step t3474 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t3473))
% 32.29/32.48 (step t3475 (cl (or (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) :rule and :premises (t1107))
% 32.29/32.48 (step t3476 (cl (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) :rule or :premises (t3475))
% 32.29/32.48 (step t3477 (cl (not (= (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (or (= tptp.e12 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))))) (not (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) (or (= tptp.e12 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.48 (step t3478 (cl (= (= (= (not (not (= tptp.e12 tptp.e13))) (= tptp.e12 tptp.e13)) true) (= (not (not (= tptp.e12 tptp.e13))) (= tptp.e12 tptp.e13)))) :rule equiv_simplify)
% 32.29/32.48 (step t3479 (cl (not (= (= (not (not (= tptp.e12 tptp.e13))) (= tptp.e12 tptp.e13)) true)) (= (not (not (= tptp.e12 tptp.e13))) (= tptp.e12 tptp.e13))) :rule equiv1 :premises (t3478))
% 32.29/32.48 (step t3480 (cl (= (= (not (not (= tptp.e12 tptp.e13))) (= tptp.e12 tptp.e13)) (= (= tptp.e12 tptp.e13) (not (not (= tptp.e12 tptp.e13)))))) :rule all_simplify)
% 32.29/32.48 (step t3481 (cl (= (= tptp.e12 tptp.e13) (= tptp.e12 tptp.e13))) :rule refl)
% 32.29/32.48 (step t3482 (cl (= (not (not (= tptp.e12 tptp.e13))) (= tptp.e12 tptp.e13))) :rule all_simplify)
% 32.29/32.48 (step t3483 (cl (= (= (= tptp.e12 tptp.e13) (not (not (= tptp.e12 tptp.e13)))) (= (= tptp.e12 tptp.e13) (= tptp.e12 tptp.e13)))) :rule cong :premises (t3481 t3482))
% 32.29/32.48 (step t3484 (cl (= (= (= tptp.e12 tptp.e13) (= tptp.e12 tptp.e13)) true)) :rule all_simplify)
% 32.29/32.48 (step t3485 (cl (= (= (= tptp.e12 tptp.e13) (not (not (= tptp.e12 tptp.e13)))) true)) :rule trans :premises (t3483 t3484))
% 32.29/32.48 (step t3486 (cl (= (= (not (not (= tptp.e12 tptp.e13))) (= tptp.e12 tptp.e13)) true)) :rule trans :premises (t3480 t3485))
% 32.29/32.48 (step t3487 (cl (= (not (not (= tptp.e12 tptp.e13))) (= tptp.e12 tptp.e13))) :rule resolution :premises (t3479 t3486))
% 32.29/32.48 (step t3488 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule refl)
% 32.29/32.48 (step t3489 (cl (= (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (or (= tptp.e12 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))))) :rule cong :premises (t3487 t1111 t1415 t3488))
% 32.29/32.48 (step t3490 (cl (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.48 (step t3491 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3492)
% 32.29/32.48 (assume t3492.a0 (not (= tptp.e12 tptp.e13)))
% 32.29/32.48 (assume t3492.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.48 (assume t3492.a2 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.48 (step t3492.t1 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3492.t2)
% 32.29/32.48 (assume t3492.t2.a0 (not (= tptp.e12 tptp.e13)))
% 32.29/32.48 (assume t3492.t2.a1 (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))
% 32.29/32.48 (step t3492.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) false) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.48 (step t3492.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) false)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule equiv1 :premises (t3492.t2.t1))
% 32.29/32.48 (step t3492.t2.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.48 (step t3492.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule symm :premises (t3492.t2.a1))
% 32.29/32.48 (step t3492.t2.t5 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule symm :premises (t3492.t2.t4))
% 32.29/32.48 (step t3492.t2.t6 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule symm :premises (t3492.t2.t5))
% 32.29/32.48 (step t3492.t2.t7 (cl (= (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 tptp.e13))) :rule cong :premises (t3492.t2.t3 t3492.t2.t6))
% 32.29/32.48 (step t3492.t2.t8 (cl (= (= (= tptp.e12 tptp.e13) false) (not (= tptp.e12 tptp.e13)))) :rule equiv_simplify)
% 32.29/32.48 (step t3492.t2.t9 (cl (= (= tptp.e12 tptp.e13) false) (not (not (= tptp.e12 tptp.e13)))) :rule equiv2 :premises (t3492.t2.t8))
% 32.29/32.48 (step t3492.t2.t10 (cl (not (not (not (= tptp.e12 tptp.e13)))) (= tptp.e12 tptp.e13)) :rule not_not)
% 32.29/32.48 (step t3492.t2.t11 (cl (= (= tptp.e12 tptp.e13) false) (= tptp.e12 tptp.e13)) :rule resolution :premises (t3492.t2.t9 t3492.t2.t10))
% 32.29/32.48 (step t3492.t2.t12 (cl (= (= tptp.e12 tptp.e13) false)) :rule resolution :premises (t3492.t2.t11 t3492.t2.a0))
% 32.29/32.48 (step t3492.t2.t13 (cl (= (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) false)) :rule trans :premises (t3492.t2.t7 t3492.t2.t12))
% 32.29/32.48 (step t3492.t2.t14 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3492.t2.t2 t3492.t2.t13))
% 32.29/32.48 (step t3492.t2 (cl (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule subproof :discharge (t3492.t2.a0 t3492.t2.a1))
% 32.29/32.48 (step t3492.t3 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3492.t4 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3492.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t3492.t2 t3492.t3 t3492.t4))
% 32.29/32.48 (step t3492.t6 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule reordering :premises (t3492.t5))
% 32.29/32.48 (step t3492.t7 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t3492.t6))
% 32.29/32.48 (step t3492.t8 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3492.t1 t3492.t7))
% 32.29/32.48 (step t3492.t9 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3492.t10 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t3492.t8 t3492.t9))
% 32.29/32.48 (step t3492.t11 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule contraction :premises (t3492.t10))
% 32.29/32.48 (step t3492.t12 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies :premises (t3492.t11))
% 32.29/32.48 (step t3492.t13 (cl (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3492.t14 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3492.t15)
% 32.29/32.48 (assume t3492.t15.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.48 (assume t3492.t15.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.48 (step t3492.t15.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t3492.t15.a1))
% 32.29/32.48 (step t3492.t15.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t3492.t15.t1))
% 32.29/32.48 (step t3492.t15.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.48 (step t3492.t15.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t3492.t15.a0))
% 32.29/32.48 (step t3492.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op1 tptp.e14 tptp.e11))) :rule cong :premises (t3492.t15.t3 t3492.t15.t4))
% 32.29/32.48 (step t3492.t15.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t3492.t15.t2 t3492.t15.t5))
% 32.29/32.48 (step t3492.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule subproof :discharge (t3492.t15.a0 t3492.t15.a1))
% 32.29/32.48 (step t3492.t16 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3492.t17 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3492.t18 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t3492.t15 t3492.t16 t3492.t17))
% 32.29/32.48 (step t3492.t19 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule reordering :premises (t3492.t18))
% 32.29/32.48 (step t3492.t20 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule contraction :premises (t3492.t19))
% 32.29/32.48 (step t3492.t21 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t3492.t14 t3492.t20))
% 32.29/32.48 (step t3492.t22 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg2)
% 32.29/32.48 (step t3492.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3492.t21 t3492.t22))
% 32.29/32.48 (step t3492.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t3492.t23))
% 32.29/32.48 (step t3492.t25 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule implies :premises (t3492.t24))
% 32.29/32.48 (step t3492.t26 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.48 (step t3492.t27 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3492.t26 t3492.a1 t3492.a2))
% 32.29/32.48 (step t3492.t28 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t3492.t25 t3492.t27))
% 32.29/32.48 (step t3492.t29 (cl (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3492.t13 t3492.a0 t3492.t28))
% 32.29/32.48 (step t3492.t30 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3492.t12 t3492.t29))
% 32.29/32.48 (step t3492 (cl (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule subproof :discharge (t3492.a0 t3492.a1 t3492.a2))
% 32.29/32.48 (step t3493 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (= tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3494 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3495 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3496 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t3492 t3493 t3494 t3495))
% 32.29/32.48 (step t3497 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule reordering :premises (t3496))
% 32.29/32.48 (step t3498 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t3497))
% 32.29/32.48 (step t3499 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3491 t3498))
% 32.29/32.48 (step t3500 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3501 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t3499 t3500))
% 32.29/32.48 (step t3502 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule contraction :premises (t3501))
% 32.29/32.48 (step t3503 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies :premises (t3502))
% 32.29/32.48 (step t3504 (cl (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3490 t3503))
% 32.29/32.48 (step t3505 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (not (= tptp.e12 tptp.e13))))) :rule or_neg)
% 32.29/32.48 (step t3506 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.48 (step t3507 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.48 (step t3508 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule or_neg)
% 32.29/32.48 (step t3509 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t3504 t3505 t3506 t3507 t3508))
% 32.29/32.48 (step t3510 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule contraction :premises (t3509))
% 32.29/32.48 (step t3511 (cl (or (= tptp.e12 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t3477 t3489 t3510))
% 32.29/32.48 (step t3512 (cl (= tptp.e12 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule or :premises (t3511))
% 32.29/32.48 (step t3513 (cl (= tptp.e12 tptp.e13) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t3512))
% 32.29/32.48 (step t3514 (cl (not (= tptp.e12 tptp.e13))) :rule and :premises (a8))
% 32.29/32.48 (step t3515 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3513 t3514 t767 t799))
% 32.29/32.48 (step t3516 (cl (not (= (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (or (= tptp.e11 tptp.e12) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))))) (not (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) (or (= tptp.e11 tptp.e12) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.48 (step t3517 (cl (= (= (= (not (not (= tptp.e11 tptp.e12))) (= tptp.e11 tptp.e12)) true) (= (not (not (= tptp.e11 tptp.e12))) (= tptp.e11 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.48 (step t3518 (cl (not (= (= (not (not (= tptp.e11 tptp.e12))) (= tptp.e11 tptp.e12)) true)) (= (not (not (= tptp.e11 tptp.e12))) (= tptp.e11 tptp.e12))) :rule equiv1 :premises (t3517))
% 32.29/32.48 (step t3519 (cl (= (= (not (not (= tptp.e11 tptp.e12))) (= tptp.e11 tptp.e12)) (= (= tptp.e11 tptp.e12) (not (not (= tptp.e11 tptp.e12)))))) :rule all_simplify)
% 32.29/32.48 (step t3520 (cl (= (= tptp.e11 tptp.e12) (= tptp.e11 tptp.e12))) :rule refl)
% 32.29/32.48 (step t3521 (cl (= (not (not (= tptp.e11 tptp.e12))) (= tptp.e11 tptp.e12))) :rule all_simplify)
% 32.29/32.48 (step t3522 (cl (= (= (= tptp.e11 tptp.e12) (not (not (= tptp.e11 tptp.e12)))) (= (= tptp.e11 tptp.e12) (= tptp.e11 tptp.e12)))) :rule cong :premises (t3520 t3521))
% 32.29/32.48 (step t3523 (cl (= (= (= tptp.e11 tptp.e12) (= tptp.e11 tptp.e12)) true)) :rule all_simplify)
% 32.29/32.48 (step t3524 (cl (= (= (= tptp.e11 tptp.e12) (not (not (= tptp.e11 tptp.e12)))) true)) :rule trans :premises (t3522 t3523))
% 32.29/32.48 (step t3525 (cl (= (= (not (not (= tptp.e11 tptp.e12))) (= tptp.e11 tptp.e12)) true)) :rule trans :premises (t3519 t3524))
% 32.29/32.48 (step t3526 (cl (= (not (not (= tptp.e11 tptp.e12))) (= tptp.e11 tptp.e12))) :rule resolution :premises (t3518 t3525))
% 32.29/32.48 (step t3527 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule refl)
% 32.29/32.48 (step t3528 (cl (= (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (or (= tptp.e11 tptp.e12) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))))) :rule cong :premises (t3526 t1111 t3527))
% 32.29/32.48 (step t3529 (cl (not (= (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))))) (not (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.48 (step t3530 (cl (= (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule refl)
% 32.29/32.48 (step t3531 (cl (= (= (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))))) :rule equiv_simplify)
% 32.29/32.48 (step t3532 (cl (= (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false) (not (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))))) :rule equiv2 :premises (t3531))
% 32.29/32.48 (step t3533 (cl (not (not (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule not_not)
% 32.29/32.48 (step t3534 (cl (= (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3532 t3533))
% 32.29/32.48 (step t3535 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3536)
% 32.29/32.48 (assume t3536.a0 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.48 (assume t3536.a1 (not (= tptp.e11 tptp.e12)))
% 32.29/32.48 (assume t3536.a2 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.48 (step t3536.t1 (cl (not (= (= false true) false)) (not (= false true)) false) :rule equiv_pos2)
% 32.29/32.48 (step t3536.t2 (cl (= (= false true) false)) :rule all_simplify)
% 32.29/32.48 (step t3536.t3 (cl (= (= (= tptp.e11 tptp.e12) false) (not (= tptp.e11 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.48 (step t3536.t4 (cl (= (= tptp.e11 tptp.e12) false) (not (not (= tptp.e11 tptp.e12)))) :rule equiv2 :premises (t3536.t3))
% 32.29/32.48 (step t3536.t5 (cl (not (not (not (= tptp.e11 tptp.e12)))) (= tptp.e11 tptp.e12)) :rule not_not)
% 32.29/32.48 (step t3536.t6 (cl (= (= tptp.e11 tptp.e12) false) (= tptp.e11 tptp.e12)) :rule resolution :premises (t3536.t4 t3536.t5))
% 32.29/32.48 (step t3536.t7 (cl (= (= tptp.e11 tptp.e12) false)) :rule resolution :premises (t3536.t6 t3536.a1))
% 32.29/32.48 (step t3536.t8 (cl (= false (= tptp.e11 tptp.e12))) :rule symm :premises (t3536.t7))
% 32.29/32.48 (step t3536.t9 (cl (= (= (= tptp.e11 tptp.e12) true) (= tptp.e11 tptp.e12))) :rule equiv_simplify)
% 32.29/32.48 (step t3536.t10 (cl (= (= tptp.e11 tptp.e12) true) (not (= tptp.e11 tptp.e12))) :rule equiv2 :premises (t3536.t9))
% 32.29/32.48 (step t3536.t11 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t3536.a2))
% 32.29/32.48 (step t3536.t12 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t3536.t11))
% 32.29/32.48 (step t3536.t13 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12)) :rule symm :premises (t3536.a0))
% 32.29/32.48 (step t3536.t14 (cl (= tptp.e11 tptp.e12)) :rule trans :premises (t3536.t12 t3536.t13))
% 32.29/32.48 (step t3536.t15 (cl (= (= tptp.e11 tptp.e12) true)) :rule resolution :premises (t3536.t10 t3536.t14))
% 32.29/32.48 (step t3536.t16 (cl (= false true)) :rule trans :premises (t3536.t8 t3536.t15))
% 32.29/32.48 (step t3536.t17 (cl false) :rule resolution :premises (t3536.t1 t3536.t2 t3536.t16))
% 32.29/32.48 (step t3536 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false) :rule subproof :discharge (t3536.a0 t3536.a1 t3536.a2))
% 32.29/32.48 (step t3537 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3538 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3539 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3540 (cl false (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3536 t3537 t3538 t3539))
% 32.29/32.48 (step t3541 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) false) :rule reordering :premises (t3540))
% 32.29/32.48 (step t3542 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) false) :rule contraction :premises (t3541))
% 32.29/32.48 (step t3543 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false) false) :rule resolution :premises (t3535 t3542))
% 32.29/32.48 (step t3544 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false) (not false)) :rule implies_neg2)
% 32.29/32.48 (step t3545 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false) (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false)) :rule resolution :premises (t3543 t3544))
% 32.29/32.48 (step t3546 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false)) :rule contraction :premises (t3545))
% 32.29/32.48 (step t3547 (cl (= (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))))) :rule implies_simplify)
% 32.29/32.48 (step t3548 (cl (not (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false)) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv1 :premises (t3547))
% 32.29/32.48 (step t3549 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3546 t3548))
% 32.29/32.48 (step t3550 (cl (= (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) false)) :rule resolution :premises (t3534 t3549))
% 32.29/32.48 (step t3551 (cl (= (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) false))) :rule cong :premises (t3530 t3550))
% 32.29/32.48 (step t3552 (cl (= (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) false) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))))) :rule all_simplify)
% 32.29/32.48 (step t3553 (cl (= (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))))) :rule trans :premises (t3551 t3552))
% 32.29/32.48 (step t3554 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3555)
% 32.29/32.48 (assume t3555.a0 (not (= tptp.e11 tptp.e12)))
% 32.29/32.48 (assume t3555.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.48 (assume t3555.a2 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.48 (step t3555.t1 (cl (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.48 (step t3555.t2 (cl (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3555.t1 t3555.a2 t3555.a0 t3555.a1))
% 32.29/32.48 (step t3555 (cl (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t3555.a0 t3555.a1 t3555.a2))
% 32.29/32.48 (step t3556 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3557 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3558 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3559 (cl (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3555 t3556 t3557 t3558))
% 32.29/32.48 (step t3560 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t3559))
% 32.29/32.48 (step t3561 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t3560))
% 32.29/32.48 (step t3562 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3554 t3561))
% 32.29/32.48 (step t3563 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.48 (step t3564 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3562 t3563))
% 32.29/32.48 (step t3565 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t3564))
% 32.29/32.48 (step t3566 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3529 t3553 t3565))
% 32.29/32.48 (step t3567 (cl (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) :rule not_and :premises (t3566))
% 32.29/32.48 (step t3568 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (not (= tptp.e11 tptp.e12))))) :rule or_neg)
% 32.29/32.48 (step t3569 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.48 (step t3570 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.48 (step t3571 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3567 t3568 t3569 t3570))
% 32.29/32.48 (step t3572 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t3571))
% 32.29/32.48 (step t3573 (cl (or (= tptp.e11 tptp.e12) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3516 t3528 t3572))
% 32.29/32.48 (step t3574 (cl (= tptp.e11 tptp.e12) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) :rule or :premises (t3573))
% 32.29/32.48 (step t3575 (cl (not (= tptp.e11 tptp.e12))) :rule and :premises (a8))
% 32.29/32.48 (step t3576 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t3574 t767 t3575))
% 32.29/32.48 (step t3577 (cl (not (= (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))))) (not (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule equiv_pos2)
% 32.29/32.48 (step t3578 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))))) :rule refl)
% 32.29/32.48 (step t3579 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) :rule equiv_simplify)
% 32.29/32.48 (step t3580 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule equiv1 :premises (t3579))
% 32.29/32.48 (step t3581 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))))) :rule all_simplify)
% 32.29/32.48 (step t3582 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule refl)
% 32.29/32.48 (step t3583 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule all_simplify)
% 32.29/32.48 (step t3584 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) :rule cong :premises (t3582 t3583))
% 32.29/32.48 (step t3585 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) true)) :rule all_simplify)
% 32.29/32.48 (step t3586 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) true)) :rule trans :premises (t3584 t3585))
% 32.29/32.48 (step t3587 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) true)) :rule trans :premises (t3581 t3586))
% 32.29/32.48 (step t3588 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t3580 t3587))
% 32.29/32.48 (step t3589 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule refl)
% 32.29/32.48 (step t3590 (cl (= (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))))) :rule cong :premises (t3578 t3588 t3589))
% 32.29/32.48 (step t3591 (cl (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) :rule and_neg)
% 32.29/32.48 (step t3592 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3593)
% 32.29/32.48 (assume t3593.a0 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))
% 32.29/32.48 (assume t3593.a1 (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))
% 32.29/32.48 (step t3593.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3593.t2)
% 32.29/32.48 (assume t3593.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))
% 32.29/32.48 (assume t3593.t2.a1 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))
% 32.29/32.48 (step t3593.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) false) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule equiv_simplify)
% 32.29/32.48 (step t3593.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) false)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule equiv1 :premises (t3593.t2.t1))
% 32.29/32.48 (step t3593.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12)) :rule symm :premises (t3593.t2.a1))
% 32.29/32.48 (step t3593.t2.t4 (cl (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) :rule symm :premises (t3593.t2.t3))
% 32.29/32.48 (step t3593.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule refl)
% 32.29/32.48 (step t3593.t2.t6 (cl (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule cong :premises (t3593.t2.t4 t3593.t2.t5))
% 32.29/32.48 (step t3593.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) false) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) :rule equiv_simplify)
% 32.29/32.48 (step t3593.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) :rule equiv2 :premises (t3593.t2.t7))
% 32.29/32.48 (step t3593.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule not_not)
% 32.29/32.48 (step t3593.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) false) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule resolution :premises (t3593.t2.t8 t3593.t2.t9))
% 32.29/32.48 (step t3593.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) false)) :rule resolution :premises (t3593.t2.t10 t3593.t2.a0))
% 32.29/32.48 (step t3593.t2.t12 (cl (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) false)) :rule trans :premises (t3593.t2.t6 t3593.t2.t11))
% 32.29/32.48 (step t3593.t2.t13 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t3593.t2.t2 t3593.t2.t12))
% 32.29/32.48 (step t3593.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule subproof :discharge (t3593.t2.a0 t3593.t2.a1))
% 32.29/32.48 (step t3593.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule and_pos)
% 32.29/32.48 (step t3593.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3593.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t3593.t2 t3593.t3 t3593.t4))
% 32.29/32.48 (step t3593.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule reordering :premises (t3593.t5))
% 32.29/32.48 (step t3593.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule contraction :premises (t3593.t6))
% 32.29/32.48 (step t3593.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t3593.t1 t3593.t7))
% 32.29/32.48 (step t3593.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule implies_neg2)
% 32.29/32.48 (step t3593.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule resolution :premises (t3593.t8 t3593.t9))
% 32.29/32.48 (step t3593.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule contraction :premises (t3593.t10))
% 32.29/32.48 (step t3593.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule implies :premises (t3593.t11))
% 32.29/32.48 (step t3593.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule and_neg)
% 32.29/32.48 (step t3593.t14 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t3593.t13 t3593.a1 t3593.a0))
% 32.29/32.48 (step t3593.t15 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t3593.t12 t3593.t14))
% 32.29/32.48 (step t3593 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule subproof :discharge (t3593.a0 t3593.a1))
% 32.29/32.48 (step t3594 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3595 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule and_pos)
% 32.29/32.48 (step t3596 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))))) :rule resolution :premises (t3593 t3594 t3595))
% 32.29/32.48 (step t3597 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule reordering :premises (t3596))
% 32.29/32.48 (step t3598 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule contraction :premises (t3597))
% 32.29/32.48 (step t3599 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t3592 t3598))
% 32.29/32.48 (step t3600 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule implies_neg2)
% 32.29/32.48 (step t3601 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule resolution :premises (t3599 t3600))
% 32.29/32.48 (step t3602 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule contraction :premises (t3601))
% 32.29/32.48 (step t3603 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule implies :premises (t3602))
% 32.29/32.48 (step t3604 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t3591 t3603))
% 32.29/32.48 (step t3605 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))))) :rule or_neg)
% 32.29/32.48 (step t3606 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))))) :rule or_neg)
% 32.29/32.48 (step t3607 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule or_neg)
% 32.29/32.48 (step t3608 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule resolution :premises (t3604 t3605 t3606 t3607))
% 32.29/32.48 (step t3609 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule contraction :premises (t3608))
% 32.29/32.48 (step t3610 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))))) :rule resolution :premises (t3577 t3590 t3609))
% 32.29/32.48 (step t3611 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule or :premises (t3610))
% 32.29/32.48 (step t3612 (cl (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule reordering :premises (t3611))
% 32.29/32.48 (step t3613 (cl (not (= (tptp.op1 tptp.e14 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule and :premises (t1360))
% 32.29/32.48 (step t3614 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t3474 t3476 t3515 t3576 t3612 t3613))
% 32.29/32.48 (step t3615 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t3614))
% 32.29/32.48 (step t3616 (cl (or (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule and :premises (t1107))
% 32.29/32.48 (step t3617 (cl (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))) :rule or :premises (t3616))
% 32.29/32.48 (step t3618 (cl (not (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))))) (not (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.48 (step t3619 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.48 (step t3620 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule equiv1 :premises (t3619))
% 32.29/32.48 (step t3621 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))))) :rule all_simplify)
% 32.29/32.48 (step t3622 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule refl)
% 32.29/32.48 (step t3623 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule all_simplify)
% 32.29/32.48 (step t3624 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t3622 t3623))
% 32.29/32.48 (step t3625 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) true)) :rule all_simplify)
% 32.29/32.48 (step t3626 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) true)) :rule trans :premises (t3624 t3625))
% 32.29/32.48 (step t3627 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) true)) :rule trans :premises (t3621 t3626))
% 32.29/32.48 (step t3628 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t3620 t3627))
% 32.29/32.48 (step t3629 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule refl)
% 32.29/32.48 (step t3630 (cl (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))))) :rule cong :premises (t1414 t1415 t3628 t3629))
% 32.29/32.48 (step t3631 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule and_neg)
% 32.29/32.48 (step t3632 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3633)
% 32.29/32.48 (assume t3633.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.48 (assume t3633.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.48 (assume t3633.a2 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))
% 32.29/32.48 (step t3633.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3633.t2)
% 32.29/32.48 (assume t3633.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))
% 32.29/32.48 (assume t3633.t2.a1 (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))
% 32.29/32.48 (step t3633.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) false) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.48 (step t3633.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) false)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule equiv1 :premises (t3633.t2.t1))
% 32.29/32.48 (step t3633.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule symm :premises (t3633.t2.a1))
% 32.29/32.48 (step t3633.t2.t4 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule symm :premises (t3633.t2.t3))
% 32.29/32.48 (step t3633.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule refl)
% 32.29/32.48 (step t3633.t2.t6 (cl (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule cong :premises (t3633.t2.t4 t3633.t2.t5))
% 32.29/32.48 (step t3633.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) false) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.48 (step t3633.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv2 :premises (t3633.t2.t7))
% 32.29/32.48 (step t3633.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule not_not)
% 32.29/32.48 (step t3633.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) false) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t3633.t2.t8 t3633.t2.t9))
% 32.29/32.48 (step t3633.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) false)) :rule resolution :premises (t3633.t2.t10 t3633.t2.a0))
% 32.29/32.48 (step t3633.t2.t12 (cl (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)) false)) :rule trans :premises (t3633.t2.t6 t3633.t2.t11))
% 32.29/32.48 (step t3633.t2.t13 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t3633.t2.t2 t3633.t2.t12))
% 32.29/32.48 (step t3633.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule subproof :discharge (t3633.t2.a0 t3633.t2.a1))
% 32.29/32.48 (step t3633.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3633.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3633.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t3633.t2 t3633.t3 t3633.t4))
% 32.29/32.48 (step t3633.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule reordering :premises (t3633.t5))
% 32.29/32.48 (step t3633.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t3633.t6))
% 32.29/32.48 (step t3633.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t3633.t1 t3633.t7))
% 32.29/32.48 (step t3633.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg2)
% 32.29/32.48 (step t3633.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t3633.t8 t3633.t9))
% 32.29/32.48 (step t3633.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t3633.t10))
% 32.29/32.48 (step t3633.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies :premises (t3633.t11))
% 32.29/32.48 (step t3633.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule and_neg)
% 32.29/32.48 (step t3633.t14 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3633.t15)
% 32.29/32.48 (assume t3633.t15.a0 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.48 (assume t3633.t15.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.48 (step t3633.t15.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t3633.t15.a1))
% 32.29/32.48 (step t3633.t15.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t3633.t15.t1))
% 32.29/32.48 (step t3633.t15.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t3633.t15.a0))
% 32.29/32.48 (step t3633.t15.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t3633.t15.t3))
% 32.29/32.48 (step t3633.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t3633.t15.t4))
% 32.29/32.48 (step t3633.t15.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.48 (step t3633.t15.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t3633.t15.t5 t3633.t15.t6))
% 32.29/32.48 (step t3633.t15.t8 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t3633.t15.t2 t3633.t15.t7))
% 32.29/32.48 (step t3633.t15 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule subproof :discharge (t3633.t15.a0 t3633.t15.a1))
% 32.29/32.48 (step t3633.t16 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3633.t17 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3633.t18 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t3633.t15 t3633.t16 t3633.t17))
% 32.29/32.48 (step t3633.t19 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule reordering :premises (t3633.t18))
% 32.29/32.48 (step t3633.t20 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t3633.t19))
% 32.29/32.48 (step t3633.t21 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t3633.t14 t3633.t20))
% 32.29/32.48 (step t3633.t22 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg2)
% 32.29/32.48 (step t3633.t23 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t3633.t21 t3633.t22))
% 32.29/32.48 (step t3633.t24 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t3633.t23))
% 32.29/32.48 (step t3633.t25 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule implies :premises (t3633.t24))
% 32.29/32.48 (step t3633.t26 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.29/32.48 (step t3633.t27 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t3633.t26 t3633.a1 t3633.a0))
% 32.29/32.48 (step t3633.t28 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t3633.t25 t3633.t27))
% 32.29/32.48 (step t3633.t29 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t3633.t13 t3633.a2 t3633.t28))
% 32.29/32.48 (step t3633.t30 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t3633.t12 t3633.t29))
% 32.29/32.48 (step t3633 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule subproof :discharge (t3633.a0 t3633.a1 t3633.a2))
% 32.29/32.48 (step t3634 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3635 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3636 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3637 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))))) :rule resolution :premises (t3633 t3634 t3635 t3636))
% 32.29/32.48 (step t3638 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule reordering :premises (t3637))
% 32.29/32.48 (step t3639 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t3638))
% 32.29/32.48 (step t3640 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t3632 t3639))
% 32.29/32.48 (step t3641 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg2)
% 32.29/32.48 (step t3642 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t3640 t3641))
% 32.29/32.48 (step t3643 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t3642))
% 32.29/32.48 (step t3644 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14))))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies :premises (t3643))
% 32.29/32.48 (step t3645 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t3631 t3644))
% 32.29/32.48 (step t3646 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule or_neg)
% 32.29/32.48 (step t3647 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.48 (step t3648 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))))) :rule or_neg)
% 32.29/32.48 (step t3649 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule or_neg)
% 32.29/32.48 (step t3650 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t3645 t3646 t3647 t3648 t3649))
% 32.29/32.48 (step t3651 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t3650))
% 32.29/32.48 (step t3652 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t3618 t3630 t3651))
% 32.29/32.48 (step t3653 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule or :premises (t3652))
% 32.29/32.48 (step t3654 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t3653))
% 32.29/32.48 (step t3655 (cl (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e14)))) :rule and :premises (t1360))
% 32.29/32.48 (step t3656 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t3654 t3655 t798 t799))
% 32.29/32.48 (step t3657 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule or :premises (t3082))
% 32.29/32.48 (step t3658 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3122 t799 t767 t3123))
% 32.29/32.48 (step t3659 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t3615 t3617 t3656 t3657 t3658))
% 32.29/32.48 (step t3660 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule contraction :premises (t3659))
% 32.29/32.48 (step t3661 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3662 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3663)
% 32.29/32.48 (assume t3663.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3663.a1 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.48 (assume t3663.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3663.a3 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t3663.a4 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (step t3663.t1 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3663.t2)
% 32.29/32.48 (assume t3663.t2.a0 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (assume t3663.t2.a1 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3663.t2.a2 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3663.t2.a3 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t3663.t2.a4 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.48 (step t3663.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14)) :rule symm :premises (t3663.t2.a4))
% 32.29/32.48 (step t3663.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.h2 tptp.e14))) :rule cong :premises (t3663.t2.t1))
% 32.29/32.48 (step t3663.t2.t3 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t3663.t2.a3))
% 32.29/32.48 (step t3663.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3663.t2.a2))
% 32.29/32.48 (step t3663.t2.t5 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t3663.t2.t4))
% 32.29/32.48 (step t3663.t2.t6 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3663.t2.a1))
% 32.29/32.48 (step t3663.t2.t7 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3663.t2.t6))
% 32.29/32.48 (step t3663.t2.t8 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3663.t2.a0))
% 32.29/32.48 (step t3663.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule symm :premises (t3663.t2.t8))
% 32.29/32.48 (step t3663.t2.t10 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t3663.t2.t7 t3663.t2.t9))
% 32.29/32.48 (step t3663.t2.t11 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule cong :premises (t3663.t2.t10 t3663.t2.t10))
% 32.29/32.48 (step t3663.t2.t12 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule trans :premises (t3663.t2.t2 t3663.t2.t3 t3663.t2.t5 t3663.t2.t11))
% 32.29/32.48 (step t3663.t2 (cl (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t3663.t2.a0 t3663.t2.a1 t3663.t2.a2 t3663.t2.a3 t3663.t2.a4))
% 32.29/32.48 (step t3663.t3 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3663.t4 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3663.t5 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3663.t6 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3663.t7 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3663.t8 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3663.t2 t3663.t3 t3663.t4 t3663.t5 t3663.t6 t3663.t7))
% 32.29/32.48 (step t3663.t9 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule reordering :premises (t3663.t8))
% 32.29/32.48 (step t3663.t10 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule contraction :premises (t3663.t9))
% 32.29/32.48 (step t3663.t11 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3663.t1 t3663.t10))
% 32.29/32.48 (step t3663.t12 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3663.t13 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))))) :rule resolution :premises (t3663.t11 t3663.t12))
% 32.29/32.48 (step t3663.t14 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))))) :rule contraction :premises (t3663.t13))
% 32.29/32.48 (step t3663.t15 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule implies :premises (t3663.t14))
% 32.29/32.48 (step t3663.t16 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3663.t17 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3663.t16 t3663.a4 t3663.a2 t3663.a0 t3663.a3 t3663.a1))
% 32.29/32.48 (step t3663.t18 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3663.t15 t3663.t17))
% 32.29/32.48 (step t3663 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t3663.a0 t3663.a1 t3663.a2 t3663.a3 t3663.a4))
% 32.29/32.48 (step t3664 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3665 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3666 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3667 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3668 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3669 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))))) :rule resolution :premises (t3663 t3664 t3665 t3666 t3667 t3668))
% 32.29/32.48 (step t3670 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule reordering :premises (t3669))
% 32.29/32.48 (step t3671 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule contraction :premises (t3670))
% 32.29/32.48 (step t3672 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3662 t3671))
% 32.29/32.48 (step t3673 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3674 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))))) :rule resolution :premises (t3672 t3673))
% 32.29/32.48 (step t3675 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))))) :rule contraction :premises (t3674))
% 32.29/32.48 (step t3676 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule implies :premises (t3675))
% 32.29/32.48 (step t3677 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3661 t3676))
% 32.29/32.48 (step t3678 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))) :rule reordering :premises (t3677))
% 32.29/32.48 (step t3679 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3680 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3681)
% 32.29/32.48 (assume t3681.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3681.a1 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.48 (assume t3681.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3681.a3 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.48 (assume t3681.a4 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.48 (step t3681.t1 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3681.t2)
% 32.29/32.48 (assume t3681.t2.a0 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.48 (assume t3681.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3681.t2.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3681.t2.a3 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.48 (assume t3681.t2.a4 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.48 (step t3681.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14)) :rule symm :premises (t3681.t2.a4))
% 32.29/32.48 (step t3681.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.h5 tptp.e14))) :rule cong :premises (t3681.t2.t1))
% 32.29/32.48 (step t3681.t2.t3 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t3681.t2.a3))
% 32.29/32.48 (step t3681.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3681.t2.a2))
% 32.29/32.48 (step t3681.t2.t5 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3681.t2.t4))
% 32.29/32.48 (step t3681.t2.t6 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3681.t2.a1))
% 32.29/32.48 (step t3681.t2.t7 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t3681.t2.t6))
% 32.29/32.48 (step t3681.t2.t8 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t3681.t2.a0))
% 32.29/32.48 (step t3681.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t3681.t2.t8))
% 32.29/32.48 (step t3681.t2.t10 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t3681.t2.t7 t3681.t2.t9))
% 32.29/32.48 (step t3681.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule cong :premises (t3681.t2.t10 t3681.t2.t10))
% 32.29/32.48 (step t3681.t2.t12 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule trans :premises (t3681.t2.t2 t3681.t2.t3 t3681.t2.t5 t3681.t2.t11))
% 32.29/32.48 (step t3681.t2 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t3681.t2.a0 t3681.t2.a1 t3681.t2.a2 t3681.t2.a3 t3681.t2.a4))
% 32.29/32.48 (step t3681.t3 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3681.t4 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3681.t5 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3681.t6 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3681.t7 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3681.t8 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3681.t2 t3681.t3 t3681.t4 t3681.t5 t3681.t6 t3681.t7))
% 32.29/32.48 (step t3681.t9 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule reordering :premises (t3681.t8))
% 32.29/32.48 (step t3681.t10 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule contraction :premises (t3681.t9))
% 32.29/32.48 (step t3681.t11 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule resolution :premises (t3681.t1 t3681.t10))
% 32.29/32.48 (step t3681.t12 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3681.t13 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))))) :rule resolution :premises (t3681.t11 t3681.t12))
% 32.29/32.48 (step t3681.t14 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))))) :rule contraction :premises (t3681.t13))
% 32.29/32.48 (step t3681.t15 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule implies :premises (t3681.t14))
% 32.29/32.48 (step t3681.t16 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3681.t17 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3681.t16 t3681.a4 t3681.a0 t3681.a2 t3681.a3 t3681.a1))
% 32.29/32.48 (step t3681.t18 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule resolution :premises (t3681.t15 t3681.t17))
% 32.29/32.48 (step t3681 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t3681.a0 t3681.a1 t3681.a2 t3681.a3 t3681.a4))
% 32.29/32.48 (step t3682 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3683 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3684 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3685 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3686 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3687 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))))) :rule resolution :premises (t3681 t3682 t3683 t3684 t3685 t3686))
% 32.29/32.48 (step t3688 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule reordering :premises (t3687))
% 32.29/32.48 (step t3689 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule contraction :premises (t3688))
% 32.29/32.48 (step t3690 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule resolution :premises (t3680 t3689))
% 32.29/32.48 (step t3691 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3692 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))))) :rule resolution :premises (t3690 t3691))
% 32.29/32.48 (step t3693 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))))) :rule contraction :premises (t3692))
% 32.29/32.48 (step t3694 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule implies :premises (t3693))
% 32.29/32.48 (step t3695 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11)))) :rule resolution :premises (t3679 t3694))
% 32.29/32.48 (step t3696 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))) :rule reordering :premises (t3695))
% 32.29/32.48 (step t3697 (cl (not (= (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (or (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))))) (not (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) (or (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.48 (step t3698 (cl (= (= (= (not (not (= tptp.e12 tptp.e14))) (= tptp.e12 tptp.e14)) true) (= (not (not (= tptp.e12 tptp.e14))) (= tptp.e12 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.48 (step t3699 (cl (not (= (= (not (not (= tptp.e12 tptp.e14))) (= tptp.e12 tptp.e14)) true)) (= (not (not (= tptp.e12 tptp.e14))) (= tptp.e12 tptp.e14))) :rule equiv1 :premises (t3698))
% 32.29/32.48 (step t3700 (cl (= (= (not (not (= tptp.e12 tptp.e14))) (= tptp.e12 tptp.e14)) (= (= tptp.e12 tptp.e14) (not (not (= tptp.e12 tptp.e14)))))) :rule all_simplify)
% 32.29/32.48 (step t3701 (cl (= (= tptp.e12 tptp.e14) (= tptp.e12 tptp.e14))) :rule refl)
% 32.29/32.48 (step t3702 (cl (= (not (not (= tptp.e12 tptp.e14))) (= tptp.e12 tptp.e14))) :rule all_simplify)
% 32.29/32.48 (step t3703 (cl (= (= (= tptp.e12 tptp.e14) (not (not (= tptp.e12 tptp.e14)))) (= (= tptp.e12 tptp.e14) (= tptp.e12 tptp.e14)))) :rule cong :premises (t3701 t3702))
% 32.29/32.48 (step t3704 (cl (= (= (= tptp.e12 tptp.e14) (= tptp.e12 tptp.e14)) true)) :rule all_simplify)
% 32.29/32.48 (step t3705 (cl (= (= (= tptp.e12 tptp.e14) (not (not (= tptp.e12 tptp.e14)))) true)) :rule trans :premises (t3703 t3704))
% 32.29/32.48 (step t3706 (cl (= (= (not (not (= tptp.e12 tptp.e14))) (= tptp.e12 tptp.e14)) true)) :rule trans :premises (t3700 t3705))
% 32.29/32.48 (step t3707 (cl (= (not (not (= tptp.e12 tptp.e14))) (= tptp.e12 tptp.e14))) :rule resolution :premises (t3699 t3706))
% 32.29/32.48 (step t3708 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule refl)
% 32.29/32.48 (step t3709 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule refl)
% 32.29/32.48 (step t3710 (cl (= (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (or (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))))) :rule cong :premises (t3707 t3708 t3709))
% 32.29/32.48 (step t3711 (cl (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3712 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3713)
% 32.29/32.48 (assume t3713.a0 (not (= tptp.e12 tptp.e14)))
% 32.29/32.48 (assume t3713.a1 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.48 (step t3713.t1 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3713.t2)
% 32.29/32.48 (assume t3713.t2.a0 (not (= tptp.e12 tptp.e14)))
% 32.29/32.48 (assume t3713.t2.a1 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.48 (step t3713.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) false) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.48 (step t3713.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) false)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule equiv1 :premises (t3713.t2.t1))
% 32.29/32.48 (step t3713.t2.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.48 (step t3713.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14)) :rule symm :premises (t3713.t2.a1))
% 32.29/32.48 (step t3713.t2.t5 (cl (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 tptp.e14))) :rule cong :premises (t3713.t2.t3 t3713.t2.t4))
% 32.29/32.48 (step t3713.t2.t6 (cl (= (= (= tptp.e12 tptp.e14) false) (not (= tptp.e12 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.48 (step t3713.t2.t7 (cl (= (= tptp.e12 tptp.e14) false) (not (not (= tptp.e12 tptp.e14)))) :rule equiv2 :premises (t3713.t2.t6))
% 32.29/32.48 (step t3713.t2.t8 (cl (not (not (not (= tptp.e12 tptp.e14)))) (= tptp.e12 tptp.e14)) :rule not_not)
% 32.29/32.48 (step t3713.t2.t9 (cl (= (= tptp.e12 tptp.e14) false) (= tptp.e12 tptp.e14)) :rule resolution :premises (t3713.t2.t7 t3713.t2.t8))
% 32.29/32.48 (step t3713.t2.t10 (cl (= (= tptp.e12 tptp.e14) false)) :rule resolution :premises (t3713.t2.t9 t3713.t2.a0))
% 32.29/32.48 (step t3713.t2.t11 (cl (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) false)) :rule trans :premises (t3713.t2.t5 t3713.t2.t10))
% 32.29/32.48 (step t3713.t2.t12 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3713.t2.t2 t3713.t2.t11))
% 32.29/32.48 (step t3713.t2 (cl (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t3713.t2.a0 t3713.t2.a1))
% 32.29/32.48 (step t3713.t3 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3713.t4 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3713.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3713.t2 t3713.t3 t3713.t4))
% 32.29/32.48 (step t3713.t6 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t3713.t5))
% 32.29/32.48 (step t3713.t7 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t3713.t6))
% 32.29/32.48 (step t3713.t8 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3713.t1 t3713.t7))
% 32.29/32.48 (step t3713.t9 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3713.t10 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3713.t8 t3713.t9))
% 32.29/32.48 (step t3713.t11 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t3713.t10))
% 32.29/32.48 (step t3713.t12 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t3713.t11))
% 32.29/32.48 (step t3713.t13 (cl (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3713.t14 (cl (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3713.t13 t3713.a0 t3713.a1))
% 32.29/32.48 (step t3713.t15 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3713.t12 t3713.t14))
% 32.29/32.48 (step t3713 (cl (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t3713.a0 t3713.a1))
% 32.29/32.48 (step t3714 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3715 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3716 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3713 t3714 t3715))
% 32.29/32.48 (step t3717 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t3716))
% 32.29/32.48 (step t3718 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t3717))
% 32.29/32.48 (step t3719 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3712 t3718))
% 32.29/32.48 (step t3720 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3721 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3719 t3720))
% 32.29/32.48 (step t3722 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t3721))
% 32.29/32.48 (step t3723 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t3722))
% 32.29/32.48 (step t3724 (cl (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3711 t3723))
% 32.29/32.48 (step t3725 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (not (= tptp.e12 tptp.e14))))) :rule or_neg)
% 32.29/32.48 (step t3726 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.29/32.48 (step t3727 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.29/32.48 (step t3728 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3724 t3725 t3726 t3727))
% 32.29/32.48 (step t3729 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t3728))
% 32.29/32.48 (step t3730 (cl (or (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3697 t3710 t3729))
% 32.29/32.48 (step t3731 (cl (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule or :premises (t3730))
% 32.29/32.48 (step t3732 (cl (= tptp.e12 tptp.e14) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t3731))
% 32.29/32.48 (step t3733 (cl (not (= tptp.e12 tptp.e14))) :rule and :premises (a8))
% 32.29/32.48 (step t3734 (cl (not (= (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))))) (not (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.48 (step t3735 (cl (= (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.48 (step t3736 (cl (not (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t3735))
% 32.29/32.48 (step t3737 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))))) :rule all_simplify)
% 32.29/32.48 (step t3738 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule refl)
% 32.29/32.48 (step t3739 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.29/32.48 (step t3740 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t3738 t3739))
% 32.29/32.48 (step t3741 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true)) :rule all_simplify)
% 32.29/32.48 (step t3742 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) true)) :rule trans :premises (t3740 t3741))
% 32.29/32.48 (step t3743 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) true)) :rule trans :premises (t3737 t3742))
% 32.29/32.48 (step t3744 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3736 t3743))
% 32.29/32.48 (step t3745 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule refl)
% 32.29/32.48 (step t3746 (cl (= (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))))) :rule cong :premises (t3708 t3744 t3745))
% 32.29/32.48 (step t3747 (cl (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule and_neg)
% 32.29/32.48 (step t3748 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3749)
% 32.29/32.48 (assume t3749.a0 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.48 (assume t3749.a1 (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))
% 32.29/32.48 (step t3749.t1 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3749.t2)
% 32.29/32.48 (assume t3749.t2.a0 (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))
% 32.29/32.48 (assume t3749.t2.a1 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.48 (step t3749.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.48 (step t3749.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t3749.t2.t1))
% 32.29/32.48 (step t3749.t2.t3 (cl (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14)) :rule symm :premises (t3749.t2.a1))
% 32.29/32.48 (step t3749.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule symm :premises (t3749.t2.t3))
% 32.29/32.48 (step t3749.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule refl)
% 32.29/32.48 (step t3749.t2.t6 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule cong :premises (t3749.t2.t4 t3749.t2.t5))
% 32.29/32.48 (step t3749.t2.t7 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.48 (step t3749.t2.t8 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv2 :premises (t3749.t2.t7))
% 32.29/32.48 (step t3749.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule not_not)
% 32.29/32.48 (step t3749.t2.t10 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t3749.t2.t8 t3749.t2.t9))
% 32.29/32.48 (step t3749.t2.t11 (cl (= (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) false)) :rule resolution :premises (t3749.t2.t10 t3749.t2.a0))
% 32.29/32.48 (step t3749.t2.t12 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false)) :rule trans :premises (t3749.t2.t6 t3749.t2.t11))
% 32.29/32.48 (step t3749.t2.t13 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3749.t2.t2 t3749.t2.t12))
% 32.29/32.48 (step t3749.t2 (cl (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t3749.t2.a0 t3749.t2.a1))
% 32.29/32.48 (step t3749.t3 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.29/32.48 (step t3749.t4 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3749.t5 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3749.t2 t3749.t3 t3749.t4))
% 32.29/32.48 (step t3749.t6 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t3749.t5))
% 32.29/32.48 (step t3749.t7 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t3749.t6))
% 32.29/32.48 (step t3749.t8 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3749.t1 t3749.t7))
% 32.29/32.48 (step t3749.t9 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3749.t10 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3749.t8 t3749.t9))
% 32.29/32.48 (step t3749.t11 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t3749.t10))
% 32.29/32.48 (step t3749.t12 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t3749.t11))
% 32.29/32.48 (step t3749.t13 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3749.t14 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3749.t13 t3749.a1 t3749.a0))
% 32.29/32.48 (step t3749.t15 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3749.t12 t3749.t14))
% 32.29/32.48 (step t3749 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t3749.a0 t3749.a1))
% 32.29/32.48 (step t3750 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3751 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.29/32.48 (step t3752 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))))) :rule resolution :premises (t3749 t3750 t3751))
% 32.29/32.48 (step t3753 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t3752))
% 32.29/32.48 (step t3754 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t3753))
% 32.29/32.48 (step t3755 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3748 t3754))
% 32.29/32.48 (step t3756 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3757 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3755 t3756))
% 32.29/32.48 (step t3758 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t3757))
% 32.29/32.48 (step t3759 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t3758))
% 32.29/32.48 (step t3760 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t3747 t3759))
% 32.29/32.48 (step t3761 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.29/32.48 (step t3762 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))))) :rule or_neg)
% 32.29/32.48 (step t3763 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule or_neg)
% 32.29/32.48 (step t3764 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3760 t3761 t3762 t3763))
% 32.29/32.48 (step t3765 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t3764))
% 32.29/32.48 (step t3766 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t3734 t3746 t3765))
% 32.29/32.48 (step t3767 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule or :premises (t3766))
% 32.29/32.48 (step t3768 (cl (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t3767))
% 32.29/32.48 (step t3769 (cl (not (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e10 tptp.e11)))) :rule and :premises (t1360))
% 32.29/32.48 (step t3770 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3660 t3678 t778 t776 t461 t3696 t1566 t1564 t461 t3732 t3733 t3768 t3769))
% 32.29/32.48 (step t3771 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t3770))
% 32.29/32.48 (step t3772 (cl (not (= (or (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (or (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))))) (not (or (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) (or (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule equiv_pos2)
% 32.29/32.48 (step t3773 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t931))
% 32.29/32.48 (step t3774 (cl (= (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10))) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))))) :rule cong :premises (t931 t931 t3773))
% 32.29/32.48 (step t3775 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t932))
% 32.29/32.48 (step t3776 (cl (= (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10))) (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))))) :rule cong :premises (t942 t986 t3775))
% 32.29/32.48 (step t3777 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t933))
% 32.29/32.48 (step t3778 (cl (= (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))))) :rule cong :premises (t953 t1031 t3777))
% 32.29/32.48 (step t3779 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13))))) :rule cong :premises (t934))
% 32.29/32.48 (step t3780 (cl (= (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))))) :rule cong :premises (t964 t1066 t3779))
% 32.29/32.48 (step t3781 (cl (= (not (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t935))
% 32.29/32.48 (step t3782 (cl (= (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10))) (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))))) :rule cong :premises (t975 t1091 t3781))
% 32.29/32.48 (step t3783 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t948))
% 32.29/32.48 (step t3784 (cl (= (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11))) (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))))) :rule cong :premises (t986 t942 t3783))
% 32.29/32.48 (step t3785 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t995))
% 32.29/32.48 (step t3786 (cl (= (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))))) :rule cong :premises (t995 t995 t3785))
% 32.29/32.48 (step t3787 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule cong :premises (t996))
% 32.29/32.48 (step t3788 (cl (= (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))))) :rule cong :premises (t1004 t1038 t3787))
% 32.29/32.48 (step t3789 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13))))) :rule cong :premises (t997))
% 32.29/32.48 (step t3790 (cl (= (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))))) :rule cong :premises (t1013 t1071 t3789))
% 32.29/32.48 (step t3791 (cl (= (not (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14))))) :rule cong :premises (t998))
% 32.29/32.48 (step t3792 (cl (= (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))))) :rule cong :premises (t1022 t1094 t3791))
% 32.29/32.48 (step t3793 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t960))
% 32.29/32.48 (step t3794 (cl (= (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))))) :rule cong :premises (t1031 t953 t3793))
% 32.29/32.48 (step t3795 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))))) :rule cong :premises (t1009))
% 32.29/32.48 (step t3796 (cl (= (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))))) :rule cong :premises (t1038 t1004 t3795))
% 32.29/32.48 (step t3797 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))))) :rule cong :premises (t1045))
% 32.29/32.48 (step t3798 (cl (= (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))))) :rule cong :premises (t1045 t1045 t3797))
% 32.29/32.48 (step t3799 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13))))) :rule cong :premises (t1046))
% 32.29/32.48 (step t3800 (cl (= (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12))) (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))))) :rule cong :premises (t1052 t1076 t3799))
% 32.29/32.48 (step t3801 (cl (= (not (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14))))) :rule cong :premises (t1047))
% 32.29/32.48 (step t3802 (cl (= (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12))) (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))))) :rule cong :premises (t1059 t1097 t3801))
% 32.29/32.48 (step t3803 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t972))
% 32.29/32.48 (step t3804 (cl (= (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))))) :rule cong :premises (t1066 t964 t3803))
% 32.29/32.48 (step t3805 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t1019))
% 32.29/32.48 (step t3806 (cl (= (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))))) :rule cong :premises (t1071 t1013 t3805))
% 32.29/32.48 (step t3807 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule cong :premises (t1056))
% 32.29/32.48 (step t3808 (cl (= (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13))) (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))))) :rule cong :premises (t1076 t1052 t3807))
% 32.29/32.48 (step t3809 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13))))) :rule cong :premises (t1081))
% 32.29/32.48 (step t3810 (cl (= (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))))) :rule cong :premises (t1081 t1081 t3809))
% 32.29/32.48 (step t3811 (cl (= (not (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule cong :premises (t1082))
% 32.29/32.48 (step t3812 (cl (= (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))))) :rule cong :premises (t1086 t1100 t3811))
% 32.29/32.48 (step t3813 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule cong :premises (t984))
% 32.29/32.48 (step t3814 (cl (= (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))))) :rule cong :premises (t1091 t975 t3813))
% 32.29/32.48 (step t3815 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t1029))
% 32.29/32.48 (step t3816 (cl (= (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))))) :rule cong :premises (t1094 t1022 t3815))
% 32.29/32.48 (step t3817 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t1064))
% 32.29/32.48 (step t3818 (cl (= (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))))) :rule cong :premises (t1097 t1059 t3817))
% 32.29/32.48 (step t3819 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))))) :rule cong :premises (t1089))
% 32.29/32.48 (step t3820 (cl (= (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))))) :rule cong :premises (t1100 t1086 t3819))
% 32.29/32.48 (step t3821 (cl (= (not (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule cong :premises (t1103))
% 32.29/32.48 (step t3822 (cl (= (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule cong :premises (t1103 t1103 t3821))
% 32.29/32.48 (step t3823 (cl (= (or (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e11) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e13) tptp.e10))) (and (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (not (= (tptp.op1 tptp.e10 tptp.e14) tptp.e10))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e11) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e13) tptp.e11))) (and (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (not (= (tptp.op1 tptp.e11 tptp.e14) tptp.e11))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e13) tptp.e12))) (and (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (not (= (tptp.op1 tptp.e12 tptp.e14) tptp.e12))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e11) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e13) tptp.e13))) (and (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (not (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e10) (= (tptp.op1 tptp.e10 tptp.e10) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11) (= (tptp.op1 tptp.e11 tptp.e11) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e11) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e12) (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e13) (= (tptp.op1 tptp.e13 tptp.e13) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e13) tptp.e14))) (and (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (not (= (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (or (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))))) :rule cong :premises (t3774 t3776 t3778 t3780 t3782 t3784 t3786 t3788 t3790 t3792 t3794 t3796 t3798 t3800 t3802 t3804 t3806 t3808 t3810 t3812 t3814 t3816 t3818 t3820 t3822))
% 32.29/32.48 (step t3824 (cl (or (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t3772 t3823 a11))
% 32.29/32.48 (step t3825 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule or :premises (t3824))
% 32.29/32.48 (step t3826 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3827 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))))) :rule reordering :premises (t3826))
% 32.29/32.48 (step t3828 (cl (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t2114 t767 t768 t2115))
% 32.29/32.48 (step t3829 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))))) :rule resolution :premises (t3827 t3828))
% 32.29/32.48 (step t3830 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13))))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))) :rule and_pos)
% 32.29/32.48 (step t3831 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))))) :rule reordering :premises (t3830))
% 32.29/32.48 (step t3832 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3833 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))))) :rule reordering :premises (t3832))
% 32.29/32.48 (step t3834 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))))) :rule resolution :premises (t3831 t3833))
% 32.29/32.48 (step t3835 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))))) :rule contraction :premises (t3834))
% 32.29/32.48 (step t3836 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3837 (cl (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))))) :rule reordering :premises (t3836))
% 32.29/32.48 (step t3838 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))))) :rule resolution :premises (t3837 t3298))
% 32.29/32.48 (step t3839 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3840 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))))) :rule reordering :premises (t3839))
% 32.29/32.48 (step t3841 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))))) :rule resolution :premises (t3840 t3828))
% 32.29/32.48 (step t3842 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule and_pos)
% 32.29/32.48 (step t3843 (cl (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))))) :rule reordering :premises (t3842))
% 32.29/32.48 (step t3844 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.48 (step t3845 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))))) :rule reordering :premises (t3844))
% 32.29/32.48 (step t3846 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))))) :rule resolution :premises (t3843 t3845))
% 32.29/32.48 (step t3847 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))))) :rule contraction :premises (t3846))
% 32.29/32.48 (step t3848 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13))))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3849 (cl (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))))) :rule reordering :premises (t3848))
% 32.29/32.48 (step t3850 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.48 (step t3851 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.48 (step t3852 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule equiv1 :premises (t3851))
% 32.29/32.48 (step t3853 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))))) :rule all_simplify)
% 32.29/32.48 (step t3854 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule refl)
% 32.29/32.48 (step t3855 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.29/32.48 (step t3856 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t3854 t3855))
% 32.29/32.48 (step t3857 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) true)) :rule all_simplify)
% 32.29/32.48 (step t3858 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) true)) :rule trans :premises (t3856 t3857))
% 32.29/32.48 (step t3859 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) true)) :rule trans :premises (t3853 t3858))
% 32.29/32.48 (step t3860 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3852 t3859))
% 32.29/32.48 (step t3861 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule refl)
% 32.29/32.48 (step t3862 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))))) :rule cong :premises (t1111 t1415 t3860 t3861))
% 32.29/32.48 (step t3863 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) :rule and_neg)
% 32.29/32.48 (step t3864 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3865)
% 32.29/32.48 (assume t3865.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.48 (assume t3865.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.48 (assume t3865.a2 (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))
% 32.29/32.48 (step t3865.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3865.t2)
% 32.29/32.48 (assume t3865.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))
% 32.29/32.48 (assume t3865.t2.a1 (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))
% 32.29/32.48 (step t3865.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) false) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.48 (step t3865.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) false)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule equiv1 :premises (t3865.t2.t1))
% 32.29/32.48 (step t3865.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule symm :premises (t3865.t2.a1))
% 32.29/32.48 (step t3865.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule symm :premises (t3865.t2.t3))
% 32.29/32.48 (step t3865.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) :rule refl)
% 32.29/32.48 (step t3865.t2.t6 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule cong :premises (t3865.t2.t4 t3865.t2.t5))
% 32.29/32.48 (step t3865.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) false) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.48 (step t3865.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv2 :premises (t3865.t2.t7))
% 32.29/32.48 (step t3865.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) :rule not_not)
% 32.29/32.48 (step t3865.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) false) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) :rule resolution :premises (t3865.t2.t8 t3865.t2.t9))
% 32.29/32.48 (step t3865.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) false)) :rule resolution :premises (t3865.t2.t10 t3865.t2.a0))
% 32.29/32.48 (step t3865.t2.t12 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) false)) :rule trans :premises (t3865.t2.t6 t3865.t2.t11))
% 32.29/32.48 (step t3865.t2.t13 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3865.t2.t2 t3865.t2.t12))
% 32.29/32.48 (step t3865.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t3865.t2.a0 t3865.t2.a1))
% 32.29/32.48 (step t3865.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule and_pos)
% 32.29/32.48 (step t3865.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3865.t5 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t3865.t2 t3865.t3 t3865.t4))
% 32.29/32.48 (step t3865.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t3865.t5))
% 32.29/32.48 (step t3865.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t3865.t6))
% 32.29/32.48 (step t3865.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3865.t1 t3865.t7))
% 32.29/32.48 (step t3865.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3865.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3865.t8 t3865.t9))
% 32.29/32.48 (step t3865.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t3865.t10))
% 32.29/32.48 (step t3865.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t3865.t11))
% 32.29/32.48 (step t3865.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t3865.t14 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3865.t15)
% 32.29/32.48 (assume t3865.t15.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.48 (assume t3865.t15.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.48 (step t3865.t15.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t3865.t15.a1))
% 32.29/32.48 (step t3865.t15.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t3865.t15.t1))
% 32.29/32.48 (step t3865.t15.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.48 (step t3865.t15.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t3865.t15.a0))
% 32.29/32.48 (step t3865.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op1 tptp.e14 tptp.e11))) :rule cong :premises (t3865.t15.t3 t3865.t15.t4))
% 32.29/32.48 (step t3865.t15.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t3865.t15.t2 t3865.t15.t5))
% 32.29/32.48 (step t3865.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule subproof :discharge (t3865.t15.a0 t3865.t15.a1))
% 32.29/32.48 (step t3865.t16 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3865.t17 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3865.t18 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t3865.t15 t3865.t16 t3865.t17))
% 32.29/32.48 (step t3865.t19 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule reordering :premises (t3865.t18))
% 32.29/32.48 (step t3865.t20 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule contraction :premises (t3865.t19))
% 32.29/32.48 (step t3865.t21 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t3865.t14 t3865.t20))
% 32.29/32.48 (step t3865.t22 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg2)
% 32.29/32.48 (step t3865.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3865.t21 t3865.t22))
% 32.29/32.48 (step t3865.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t3865.t23))
% 32.29/32.48 (step t3865.t25 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule implies :premises (t3865.t24))
% 32.29/32.48 (step t3865.t26 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.48 (step t3865.t27 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t3865.t26 t3865.a0 t3865.a1))
% 32.29/32.48 (step t3865.t28 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t3865.t25 t3865.t27))
% 32.29/32.48 (step t3865.t29 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t3865.t13 t3865.a2 t3865.t28))
% 32.29/32.48 (step t3865.t30 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3865.t12 t3865.t29))
% 32.29/32.48 (step t3865 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t3865.a0 t3865.a1 t3865.a2))
% 32.29/32.48 (step t3866 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3867 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3868 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule and_pos)
% 32.29/32.48 (step t3869 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))))) :rule resolution :premises (t3865 t3866 t3867 t3868))
% 32.29/32.48 (step t3870 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t3869))
% 32.29/32.48 (step t3871 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t3870))
% 32.29/32.48 (step t3872 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3864 t3871))
% 32.29/32.48 (step t3873 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t3874 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3872 t3873))
% 32.29/32.48 (step t3875 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t3874))
% 32.29/32.48 (step t3876 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t3875))
% 32.29/32.48 (step t3877 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3863 t3876))
% 32.29/32.48 (step t3878 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.48 (step t3879 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.48 (step t3880 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))))) :rule or_neg)
% 32.29/32.48 (step t3881 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.29/32.48 (step t3882 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3877 t3878 t3879 t3880 t3881))
% 32.29/32.48 (step t3883 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t3882))
% 32.29/32.48 (step t3884 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t3850 t3862 t3883))
% 32.29/32.48 (step t3885 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule or :premises (t3884))
% 32.29/32.48 (step t3886 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t3885))
% 32.29/32.48 (step t3887 (cl (not (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e11)))) :rule and :premises (t1360))
% 32.29/32.48 (step t3888 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t3886 t3887 t767 t799))
% 32.29/32.48 (step t3889 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))))) :rule resolution :premises (t3849 t3888))
% 32.29/32.48 (step t3890 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13))))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3891 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))))) :rule reordering :premises (t3890))
% 32.29/32.48 (step t3892 (cl (not (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))))) (not (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule equiv_pos2)
% 32.29/32.48 (step t3893 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) :rule equiv_simplify)
% 32.29/32.48 (step t3894 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) :rule equiv1 :premises (t3893))
% 32.29/32.48 (step t3895 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))))) :rule all_simplify)
% 32.29/32.48 (step t3896 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) :rule refl)
% 32.29/32.48 (step t3897 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) :rule all_simplify)
% 32.29/32.48 (step t3898 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) :rule cong :premises (t3896 t3897))
% 32.29/32.48 (step t3899 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) true)) :rule all_simplify)
% 32.29/32.48 (step t3900 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) true)) :rule trans :premises (t3898 t3899))
% 32.29/32.48 (step t3901 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) true)) :rule trans :premises (t3895 t3900))
% 32.29/32.48 (step t3902 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t3894 t3901))
% 32.29/32.48 (step t3903 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule refl)
% 32.29/32.48 (step t3904 (cl (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))))) :rule cong :premises (t1414 t1415 t3902 t3903))
% 32.29/32.48 (step t3905 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) :rule and_neg)
% 32.29/32.48 (step t3906 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3907)
% 32.29/32.48 (assume t3907.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.48 (assume t3907.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.48 (assume t3907.a2 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))
% 32.29/32.48 (step t3907.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3907.t2)
% 32.29/32.48 (assume t3907.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))
% 32.29/32.48 (assume t3907.t2.a1 (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))
% 32.29/32.48 (step t3907.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) false) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule equiv_simplify)
% 32.29/32.48 (step t3907.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) false)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule equiv1 :premises (t3907.t2.t1))
% 32.29/32.48 (step t3907.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule symm :premises (t3907.t2.a1))
% 32.29/32.48 (step t3907.t2.t4 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule symm :premises (t3907.t2.t3))
% 32.29/32.48 (step t3907.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e13))) :rule refl)
% 32.29/32.48 (step t3907.t2.t6 (cl (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) :rule cong :premises (t3907.t2.t4 t3907.t2.t5))
% 32.29/32.48 (step t3907.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) false) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) :rule equiv_simplify)
% 32.29/32.48 (step t3907.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) :rule equiv2 :premises (t3907.t2.t7))
% 32.29/32.48 (step t3907.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) :rule not_not)
% 32.29/32.48 (step t3907.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) false) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) :rule resolution :premises (t3907.t2.t8 t3907.t2.t9))
% 32.29/32.48 (step t3907.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) false)) :rule resolution :premises (t3907.t2.t10 t3907.t2.a0))
% 32.29/32.48 (step t3907.t2.t12 (cl (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) false)) :rule trans :premises (t3907.t2.t6 t3907.t2.t11))
% 32.29/32.48 (step t3907.t2.t13 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t3907.t2.t2 t3907.t2.t12))
% 32.29/32.48 (step t3907.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule subproof :discharge (t3907.t2.a0 t3907.t2.a1))
% 32.29/32.48 (step t3907.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) :rule and_pos)
% 32.29/32.48 (step t3907.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3907.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t3907.t2 t3907.t3 t3907.t4))
% 32.29/32.48 (step t3907.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule reordering :premises (t3907.t5))
% 32.29/32.48 (step t3907.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule contraction :premises (t3907.t6))
% 32.29/32.48 (step t3907.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t3907.t1 t3907.t7))
% 32.29/32.48 (step t3907.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule implies_neg2)
% 32.29/32.48 (step t3907.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t3907.t8 t3907.t9))
% 32.29/32.48 (step t3907.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule contraction :premises (t3907.t10))
% 32.29/32.48 (step t3907.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule implies :premises (t3907.t11))
% 32.29/32.48 (step t3907.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule and_neg)
% 32.29/32.48 (step t3907.t14 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3907.t15)
% 32.29/32.48 (assume t3907.t15.a0 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.48 (assume t3907.t15.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.48 (step t3907.t15.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t3907.t15.a1))
% 32.29/32.48 (step t3907.t15.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t3907.t15.t1))
% 32.29/32.48 (step t3907.t15.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t3907.t15.a0))
% 32.29/32.48 (step t3907.t15.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t3907.t15.t3))
% 32.29/32.48 (step t3907.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t3907.t15.t4))
% 32.29/32.48 (step t3907.t15.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.48 (step t3907.t15.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t3907.t15.t5 t3907.t15.t6))
% 32.29/32.48 (step t3907.t15.t8 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t3907.t15.t2 t3907.t15.t7))
% 32.29/32.48 (step t3907.t15 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule subproof :discharge (t3907.t15.a0 t3907.t15.a1))
% 32.29/32.48 (step t3907.t16 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3907.t17 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3907.t18 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t3907.t15 t3907.t16 t3907.t17))
% 32.29/32.48 (step t3907.t19 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule reordering :premises (t3907.t18))
% 32.29/32.48 (step t3907.t20 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t3907.t19))
% 32.29/32.48 (step t3907.t21 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t3907.t14 t3907.t20))
% 32.29/32.48 (step t3907.t22 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg2)
% 32.29/32.48 (step t3907.t23 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t3907.t21 t3907.t22))
% 32.29/32.48 (step t3907.t24 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t3907.t23))
% 32.29/32.48 (step t3907.t25 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule implies :premises (t3907.t24))
% 32.29/32.48 (step t3907.t26 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.29/32.48 (step t3907.t27 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t3907.t26 t3907.a1 t3907.a0))
% 32.29/32.48 (step t3907.t28 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t3907.t25 t3907.t27))
% 32.29/32.48 (step t3907.t29 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t3907.t13 t3907.a2 t3907.t28))
% 32.29/32.48 (step t3907.t30 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t3907.t12 t3907.t29))
% 32.29/32.48 (step t3907 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule subproof :discharge (t3907.a0 t3907.a1 t3907.a2))
% 32.29/32.48 (step t3908 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3909 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.48 (step t3910 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) :rule and_pos)
% 32.29/32.48 (step t3911 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))))) :rule resolution :premises (t3907 t3908 t3909 t3910))
% 32.29/32.48 (step t3912 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule reordering :premises (t3911))
% 32.29/32.48 (step t3913 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule contraction :premises (t3912))
% 32.29/32.48 (step t3914 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t3906 t3913))
% 32.29/32.48 (step t3915 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule implies_neg2)
% 32.29/32.48 (step t3916 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t3914 t3915))
% 32.29/32.48 (step t3917 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule contraction :premises (t3916))
% 32.29/32.48 (step t3918 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule implies :premises (t3917))
% 32.29/32.48 (step t3919 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t3905 t3918))
% 32.29/32.48 (step t3920 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (not (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule or_neg)
% 32.29/32.48 (step t3921 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.48 (step t3922 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))))) :rule or_neg)
% 32.29/32.48 (step t3923 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule or_neg)
% 32.29/32.48 (step t3924 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t3919 t3920 t3921 t3922 t3923))
% 32.29/32.48 (step t3925 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule contraction :premises (t3924))
% 32.29/32.48 (step t3926 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t3892 t3904 t3925))
% 32.29/32.48 (step t3927 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule or :premises (t3926))
% 32.29/32.48 (step t3928 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t3927))
% 32.29/32.48 (step t3929 (cl (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e13)))) :rule and :premises (t1360))
% 32.29/32.48 (step t3930 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t3928 t3929 t798 t799))
% 32.29/32.48 (step t3931 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))))) :rule resolution :premises (t3891 t3930))
% 32.29/32.48 (step t3932 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14))))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3933 (cl (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))))) :rule reordering :premises (t3932))
% 32.29/32.48 (step t3934 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))))) :rule resolution :premises (t3933 t3576))
% 32.29/32.48 (step t3935 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3936 (cl (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))))) :rule reordering :premises (t3935))
% 32.29/32.48 (step t3937 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))))) :rule resolution :premises (t3936 t3888))
% 32.29/32.48 (step t3938 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3939 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))))) :rule reordering :premises (t3938))
% 32.29/32.48 (step t3940 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))))) :rule resolution :premises (t3939 t3930))
% 32.29/32.48 (step t3941 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3942 (cl (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))))) :rule reordering :premises (t3941))
% 32.29/32.48 (step t3943 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))))) :rule resolution :premises (t3942 t3298))
% 32.29/32.48 (step t3944 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3945 (cl (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))))) :rule reordering :premises (t3944))
% 32.29/32.48 (step t3946 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))))) :rule resolution :premises (t3945 t3576))
% 32.29/32.48 (step t3947 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3948 (cl (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))))) :rule reordering :premises (t3947))
% 32.29/32.48 (step t3949 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14))))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3950 (cl (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))))) :rule reordering :premises (t3949))
% 32.29/32.48 (step t3951 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule resolution :premises (t3825 t3829 t3835 t3838 t3841 t3847 t3889 t3931 t3934 t3937 t3940 t3943 t3946 t3948 t3950))
% 32.29/32.48 (step t3952 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) :rule contraction :premises (t3951))
% 32.29/32.48 (step t3953 (cl (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t3952))
% 32.29/32.48 (step t3954 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.48 (step t3955 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3956)
% 32.29/32.48 (assume t3956.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3956.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3956.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t3956.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.48 (assume t3956.a4 (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))
% 32.29/32.48 (assume t3956.a5 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3956.a6 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.48 (assume t3956.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t3956.a8 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (assume t3956.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.48 (step t3956.t1 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3956.t2)
% 32.29/32.48 (assume t3956.t2.a0 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.48 (assume t3956.t2.a1 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (assume t3956.t2.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t3956.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t3956.t2.a4 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t3956.t2.a5 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t3956.t2.a6 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.48 (assume t3956.t2.a7 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3956.t2.a8 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.48 (assume t3956.t2.a9 (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))
% 32.29/32.48 (step t3956.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13)) :rule symm :premises (t3956.t2.a9))
% 32.29/32.48 (step t3956.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.h2 tptp.e13))) :rule cong :premises (t3956.t2.t1))
% 32.29/32.48 (step t3956.t2.t3 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t3956.t2.a8))
% 32.29/32.48 (step t3956.t2.t4 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t3956.t2.t3))
% 32.29/32.48 (step t3956.t2.t5 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t3956.t2.t4))
% 32.29/32.48 (step t3956.t2.t6 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t3956.t2.a5))
% 32.29/32.48 (step t3956.t2.t7 (cl (= tptp.e21 (tptp.h2 tptp.e14))) :rule symm :premises (t3956.t2.t6))
% 32.29/32.48 (step t3956.t2.t8 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t3956.t2.t7 t3956.t2.a1))
% 32.29/32.48 (step t3956.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t3956.t2.a2))
% 32.29/32.48 (step t3956.t2.t10 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t3956.t2.t9))
% 32.29/32.48 (step t3956.t2.t11 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t3956.t2.t10 t3956.t2.a1))
% 32.29/32.48 (step t3956.t2.t12 (cl (= (tptp.h2 tptp.e11) tptp.e24)) :rule symm :premises (t3956.t2.t11))
% 32.29/32.48 (step t3956.t2.t13 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t3956.t2.t6 t3956.t2.t12))
% 32.29/32.48 (step t3956.t2.t14 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.48 (step t3956.t2.t15 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule cong :premises (t3956.t2.a3 t3956.t2.t14))
% 32.29/32.48 (step t3956.t2.t16 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3956.t2.a7))
% 32.29/32.48 (step t3956.t2.t17 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3956.t2.t16))
% 32.29/32.48 (step t3956.t2.t18 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3956.t2.t17))
% 32.29/32.48 (step t3956.t2.t19 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t3956.t2.a6))
% 32.29/32.48 (step t3956.t2.t20 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t3956.t2.t19))
% 32.29/32.48 (step t3956.t2.t21 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3956.t2.a4))
% 32.29/32.48 (step t3956.t2.t22 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3956.t2.t21))
% 32.29/32.48 (step t3956.t2.t23 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t3956.t2.a3))
% 32.29/32.48 (step t3956.t2.t24 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t3956.t2.t14 t3956.t2.t23))
% 32.29/32.48 (step t3956.t2.t25 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.48 (step t3956.t2.t26 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t3956.t2.t10 t3956.t2.t25))
% 32.29/32.48 (step t3956.t2.t27 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t3956.t2.a0))
% 32.29/32.48 (step t3956.t2.t28 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t3956.t2.t22 t3956.t2.t24 t3956.t2.t26 t3956.t2.t27))
% 32.29/32.48 (step t3956.t2.t29 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule cong :premises (t3956.t2.t28 t3956.t2.t7))
% 32.29/32.48 (step t3956.t2.t30 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule trans :premises (t3956.t2.t2 t3956.t2.t5 t3956.t2.t8 t3956.t2.t13 t3956.t2.t15 t3956.t2.t18 t3956.t2.t20 t3956.t2.t29))
% 32.29/32.48 (step t3956.t2 (cl (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t3956.t2.a0 t3956.t2.a1 t3956.t2.a2 t3956.t2.a3 t3956.t2.a4 t3956.t2.a5 t3956.t2.a6 t3956.t2.a7 t3956.t2.a8 t3956.t2.a9))
% 32.29/32.48 (step t3956.t3 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3956.t4 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3956.t5 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3956.t6 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3956.t7 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t3956.t8 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3956.t9 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3956.t10 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3956.t11 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3956.t12 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3956.t13 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t3956.t2 t3956.t3 t3956.t4 t3956.t5 t3956.t6 t3956.t7 t3956.t8 t3956.t9 t3956.t10 t3956.t11 t3956.t12))
% 32.29/32.48 (step t3956.t14 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule reordering :premises (t3956.t13))
% 32.29/32.48 (step t3956.t15 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule contraction :premises (t3956.t14))
% 32.29/32.48 (step t3956.t16 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule resolution :premises (t3956.t1 t3956.t15))
% 32.29/32.48 (step t3956.t17 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.29/32.48 (step t3956.t18 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))))) :rule resolution :premises (t3956.t16 t3956.t17))
% 32.29/32.48 (step t3956.t19 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))))) :rule contraction :premises (t3956.t18))
% 32.29/32.48 (step t3956.t20 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule implies :premises (t3956.t19))
% 32.29/32.48 (step t3956.t21 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule and_neg)
% 32.29/32.48 (step t3956.t22 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t3956.t21 t3956.a3 t3956.a8 t3956.a5 t3956.a1 t3956.a2 t3956.a7 t3956.a6 t3956.a0 t3956.a9 t3956.a4))
% 32.29/32.48 (step t3956.t23 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule resolution :premises (t3956.t20 t3956.t22))
% 32.29/32.48 (step t3956 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t3956.a0 t3956.a1 t3956.a2 t3956.a3 t3956.a4 t3956.a5 t3956.a6 t3956.a7 t3956.a8 t3956.a9))
% 32.29/32.48 (step t3957 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3958 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3959 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t3960 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3961 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3962 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3963 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t3964 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3965 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t3966 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3967 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t3956 t3957 t3958 t3959 t3960 t3961 t3962 t3963 t3964 t3965 t3966))
% 32.29/32.48 (step t3968 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule reordering :premises (t3967))
% 32.29/32.48 (step t3969 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule contraction :premises (t3968))
% 32.29/32.48 (step t3970 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule resolution :premises (t3955 t3969))
% 32.29/32.48 (step t3971 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.29/32.48 (step t3972 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))))) :rule resolution :premises (t3970 t3971))
% 32.29/32.48 (step t3973 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))))) :rule contraction :premises (t3972))
% 32.29/32.48 (step t3974 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule implies :premises (t3973))
% 32.29/32.48 (step t3975 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14)))) :rule resolution :premises (t3954 t3974))
% 32.29/32.48 (step t3976 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t3975))
% 32.29/32.48 (step t3977 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.29/32.48 (step t3978 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3979)
% 32.29/32.48 (assume t3979.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3979.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t3979.a2 (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))
% 32.29/32.48 (assume t3979.a3 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.48 (assume t3979.a4 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.48 (assume t3979.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.48 (assume t3979.a6 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.48 (step t3979.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t3979.t2)
% 32.29/32.48 (assume t3979.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.48 (assume t3979.t2.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t3979.t2.a2 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.48 (assume t3979.t2.a3 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.48 (assume t3979.t2.a4 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t3979.t2.a5 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.48 (assume t3979.t2.a6 (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))
% 32.29/32.48 (step t3979.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.e14) tptp.e13)) :rule symm :premises (t3979.t2.a6))
% 32.29/32.48 (step t3979.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.h5 tptp.e13))) :rule cong :premises (t3979.t2.t1))
% 32.29/32.48 (step t3979.t2.t3 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3979.t2.a5))
% 32.29/32.48 (step t3979.t2.t4 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t3979.t2.t3))
% 32.29/32.48 (step t3979.t2.t5 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3979.t2.t4))
% 32.29/32.48 (step t3979.t2.t6 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3979.t2.a4))
% 32.29/32.48 (step t3979.t2.t7 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t3979.t2.t6))
% 32.29/32.48 (step t3979.t2.t8 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t3979.t2.t7))
% 32.29/32.48 (step t3979.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t3979.t2.a3))
% 32.29/32.48 (step t3979.t2.t10 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t3979.t2.t9))
% 32.29/32.48 (step t3979.t2.t11 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t3979.t2.a1))
% 32.29/32.48 (step t3979.t2.t12 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3979.t2.t11))
% 32.29/32.48 (step t3979.t2.t13 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t3979.t2.a0))
% 32.29/32.48 (step t3979.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t3979.t2.t13))
% 32.29/32.48 (step t3979.t2.t15 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t3979.t2.t12 t3979.t2.t14))
% 32.29/32.48 (step t3979.t2.t16 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t3979.t2.a2))
% 32.29/32.48 (step t3979.t2.t17 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule symm :premises (t3979.t2.t16))
% 32.29/32.48 (step t3979.t2.t18 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule cong :premises (t3979.t2.t15 t3979.t2.t17))
% 32.29/32.48 (step t3979.t2.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule trans :premises (t3979.t2.t2 t3979.t2.t5 t3979.t2.t8 t3979.t2.t10 t3979.t2.t18))
% 32.29/32.48 (step t3979.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t3979.t2.a0 t3979.t2.a1 t3979.t2.a2 t3979.t2.a3 t3979.t2.a4 t3979.t2.a5 t3979.t2.a6))
% 32.29/32.48 (step t3979.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3979.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3979.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3979.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3979.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t3979.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3979.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3979.t10 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t3979.t2 t3979.t3 t3979.t4 t3979.t5 t3979.t6 t3979.t7 t3979.t8 t3979.t9))
% 32.29/32.48 (step t3979.t11 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule reordering :premises (t3979.t10))
% 32.29/32.48 (step t3979.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule contraction :premises (t3979.t11))
% 32.29/32.48 (step t3979.t13 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule resolution :premises (t3979.t1 t3979.t12))
% 32.29/32.48 (step t3979.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.29/32.48 (step t3979.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))))) :rule resolution :premises (t3979.t13 t3979.t14))
% 32.29/32.48 (step t3979.t16 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))))) :rule contraction :premises (t3979.t15))
% 32.29/32.48 (step t3979.t17 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule implies :premises (t3979.t16))
% 32.29/32.48 (step t3979.t18 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule and_neg)
% 32.29/32.48 (step t3979.t19 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t3979.t18 t3979.a5 t3979.a0 t3979.a4 t3979.a3 t3979.a1 t3979.a6 t3979.a2))
% 32.29/32.48 (step t3979.t20 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule resolution :premises (t3979.t17 t3979.t19))
% 32.29/32.48 (step t3979 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t3979.a0 t3979.a1 t3979.a2 t3979.a3 t3979.a4 t3979.a5 t3979.a6))
% 32.29/32.48 (step t3980 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3981 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t3982 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3983 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t3984 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t3985 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.48 (step t3986 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t3987 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t3979 t3980 t3981 t3982 t3983 t3984 t3985 t3986))
% 32.29/32.48 (step t3988 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule reordering :premises (t3987))
% 32.29/32.48 (step t3989 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule contraction :premises (t3988))
% 32.29/32.48 (step t3990 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule resolution :premises (t3978 t3989))
% 32.29/32.48 (step t3991 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.29/32.48 (step t3992 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))))) :rule resolution :premises (t3990 t3991))
% 32.29/32.48 (step t3993 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))))) :rule contraction :premises (t3992))
% 32.29/32.48 (step t3994 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule implies :premises (t3993))
% 32.29/32.48 (step t3995 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14)))) :rule resolution :premises (t3977 t3994))
% 32.29/32.48 (step t3996 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t3995))
% 32.29/32.48 (step t3997 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t3771 t3953 t3976 t801 t778 t777 t776 t864 t461 t865 t3996 t1588 t1565 t1564 t864 t865))
% 32.29/32.48 (step t3998 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) :rule contraction :premises (t3997))
% 32.29/32.48 (step t3999 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.48 (step t4000 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t4001)
% 32.29/32.48 (assume t4001.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t4001.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t4001.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t4001.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.48 (assume t4001.a4 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.48 (assume t4001.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.48 (assume t4001.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t4001.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t4001.a8 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (assume t4001.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.48 (step t4001.t1 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies_neg1)
% 32.29/32.48 (anchor :step t4001.t2)
% 32.29/32.48 (assume t4001.t2.a0 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.48 (assume t4001.t2.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.48 (assume t4001.t2.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.48 (assume t4001.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.48 (assume t4001.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.48 (assume t4001.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.48 (assume t4001.t2.a6 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.48 (assume t4001.t2.a7 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.48 (assume t4001.t2.a8 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.48 (assume t4001.t2.a9 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.48 (step t4001.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10)) :rule symm :premises (t4001.t2.a9))
% 32.29/32.48 (step t4001.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.h2 tptp.e10))) :rule cong :premises (t4001.t2.t1))
% 32.29/32.48 (step t4001.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t4001.t2.a8))
% 32.29/32.48 (step t4001.t2.t4 (cl (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule symm :premises (t4001.t2.t3))
% 32.29/32.48 (step t4001.t2.t5 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4001.t2.a3))
% 32.29/32.48 (step t4001.t2.t6 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.48 (step t4001.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t4001.t2.t5 t4001.t2.t6))
% 32.29/32.48 (step t4001.t2.t8 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.48 (step t4001.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule cong :premises (t4001.t2.t8 t4001.t2.a4))
% 32.29/32.48 (step t4001.t2.t10 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t4001.t2.a7))
% 32.29/32.48 (step t4001.t2.t11 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4001.t2.t10))
% 32.29/32.48 (step t4001.t2.t12 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t4001.t2.t11))
% 32.29/32.48 (step t4001.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t4001.t2.a6))
% 32.29/32.48 (step t4001.t2.t14 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t4001.t2.t13))
% 32.29/32.48 (step t4001.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4001.t2.a5))
% 32.29/32.48 (step t4001.t2.t16 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4001.t2.t15))
% 32.29/32.48 (step t4001.t2.t17 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4001.t2.a4))
% 32.29/32.48 (step t4001.t2.t18 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4001.t2.t17 t4001.t2.t8))
% 32.29/32.48 (step t4001.t2.t19 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4001.t2.t5))
% 32.29/32.48 (step t4001.t2.t20 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4001.t2.a2))
% 32.29/32.48 (step t4001.t2.t21 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule symm :premises (t4001.t2.t20))
% 32.29/32.48 (step t4001.t2.t22 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4001.t2.t19 t4001.t2.t21))
% 32.29/32.48 (step t4001.t2.t23 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4001.t2.a1 t4001.t2.t22))
% 32.29/32.48 (step t4001.t2.t24 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4001.t2.a1))
% 32.29/32.48 (step t4001.t2.t25 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t4001.t2.t24 t4001.t2.t20))
% 32.29/32.48 (step t4001.t2.t26 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4001.t2.a0))
% 32.29/32.48 (step t4001.t2.t27 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4001.t2.t26))
% 32.29/32.48 (step t4001.t2.t28 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t4001.t2.t16 t4001.t2.t18 t4001.t2.t23 t4001.t2.t25 t4001.t2.t27))
% 32.29/32.48 (step t4001.t2.t29 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule cong :premises (t4001.t2.t28 t4001.t2.t22))
% 32.29/32.48 (step t4001.t2.t30 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule trans :premises (t4001.t2.t2 t4001.t2.t4 t4001.t2.t7 t4001.t2.t9 t4001.t2.t12 t4001.t2.t14 t4001.t2.t29))
% 32.29/32.48 (step t4001.t2 (cl (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t4001.t2.a0 t4001.t2.a1 t4001.t2.a2 t4001.t2.a3 t4001.t2.a4 t4001.t2.a5 t4001.t2.a6 t4001.t2.a7 t4001.t2.a8 t4001.t2.a9))
% 32.29/32.48 (step t4001.t3 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.48 (step t4001.t4 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.48 (step t4001.t5 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t4001.t6 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t4001.t7 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t4001.t8 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t4001.t9 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t4001.t10 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t4001.t11 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.48 (step t4001.t12 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.48 (step t4001.t13 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t4001.t2 t4001.t3 t4001.t4 t4001.t5 t4001.t6 t4001.t7 t4001.t8 t4001.t9 t4001.t10 t4001.t11 t4001.t12))
% 32.29/32.48 (step t4001.t14 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule reordering :premises (t4001.t13))
% 32.29/32.48 (step t4001.t15 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule contraction :premises (t4001.t14))
% 32.29/32.48 (step t4001.t16 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule resolution :premises (t4001.t1 t4001.t15))
% 32.29/32.48 (step t4001.t17 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.29/32.48 (step t4001.t18 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))))) :rule resolution :premises (t4001.t16 t4001.t17))
% 32.29/32.48 (step t4001.t19 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))))) :rule contraction :premises (t4001.t18))
% 32.29/32.48 (step t4001.t20 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule implies :premises (t4001.t19))
% 32.29/32.48 (step t4001.t21 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule and_neg)
% 32.29/32.48 (step t4001.t22 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t4001.t21 t4001.a9 t4001.a7 t4001.a8 t4001.a6 t4001.a1 t4001.a0 t4001.a5 t4001.a2 t4001.a3 t4001.a4))
% 32.29/32.48 (step t4001.t23 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule resolution :premises (t4001.t20 t4001.t22))
% 32.29/32.48 (step t4001 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t4001.a0 t4001.a1 t4001.a2 t4001.a3 t4001.a4 t4001.a5 t4001.a6 t4001.a7 t4001.a8 t4001.a9))
% 32.29/32.48 (step t4002 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t4003 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.48 (step t4004 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.48 (step t4005 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4006 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4007 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4008 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4009 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4010 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4011 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4012 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4001 t4002 t4003 t4004 t4005 t4006 t4007 t4008 t4009 t4010 t4011))
% 32.29/32.49 (step t4013 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule reordering :premises (t4012))
% 32.29/32.49 (step t4014 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule contraction :premises (t4013))
% 32.29/32.49 (step t4015 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule resolution :premises (t4000 t4014))
% 32.29/32.49 (step t4016 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.29/32.49 (step t4017 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))))) :rule resolution :premises (t4015 t4016))
% 32.29/32.49 (step t4018 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))))) :rule contraction :premises (t4017))
% 32.29/32.49 (step t4019 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule implies :premises (t4018))
% 32.29/32.49 (step t4020 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11)))) :rule resolution :premises (t3999 t4019))
% 32.29/32.49 (step t4021 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4020))
% 32.29/32.49 (step t4022 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.29/32.49 (step t4023 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4024)
% 32.29/32.49 (assume t4024.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4024.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4024.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4024.a3 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.49 (assume t4024.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.49 (assume t4024.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.49 (assume t4024.a6 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.49 (assume t4024.a7 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.49 (step t4024.t1 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4024.t2)
% 32.29/32.49 (assume t4024.t2.a0 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.49 (assume t4024.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4024.t2.a2 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.49 (assume t4024.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4024.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.49 (assume t4024.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4024.t2.a6 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.49 (assume t4024.t2.a7 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.49 (step t4024.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10)) :rule symm :premises (t4024.t2.a7))
% 32.29/32.49 (step t4024.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.h5 tptp.e10))) :rule cong :premises (t4024.t2.t1))
% 32.29/32.49 (step t4024.t2.t3 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4024.t2.a6))
% 32.29/32.49 (step t4024.t2.t4 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t4024.t2.t3))
% 32.29/32.49 (step t4024.t2.t5 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4024.t2.t4))
% 32.29/32.49 (step t4024.t2.t6 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4024.t2.a5))
% 32.29/32.49 (step t4024.t2.t7 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4024.t2.t6))
% 32.29/32.49 (step t4024.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4024.t2.t7))
% 32.29/32.49 (step t4024.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t4024.t2.a4))
% 32.29/32.49 (step t4024.t2.t10 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t4024.t2.t9))
% 32.29/32.49 (step t4024.t2.t11 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t4024.t2.a1))
% 32.29/32.49 (step t4024.t2.t12 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4024.t2.t11))
% 32.29/32.49 (step t4024.t2.t13 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4024.t2.a0))
% 32.29/32.49 (step t4024.t2.t14 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t4024.t2.t13))
% 32.29/32.49 (step t4024.t2.t15 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t4024.t2.t12 t4024.t2.t14))
% 32.29/32.49 (step t4024.t2.t16 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4024.t2.a3))
% 32.29/32.49 (step t4024.t2.t17 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t4024.t2.t16))
% 32.29/32.49 (step t4024.t2.t18 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t4024.t2.a2))
% 32.29/32.49 (step t4024.t2.t19 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t4024.t2.t18))
% 32.29/32.49 (step t4024.t2.t20 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t4024.t2.t17 t4024.t2.t19))
% 32.29/32.49 (step t4024.t2.t21 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule cong :premises (t4024.t2.t15 t4024.t2.t20))
% 32.29/32.49 (step t4024.t2.t22 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule trans :premises (t4024.t2.t2 t4024.t2.t5 t4024.t2.t8 t4024.t2.t10 t4024.t2.t21))
% 32.29/32.49 (step t4024.t2 (cl (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t4024.t2.a0 t4024.t2.a1 t4024.t2.a2 t4024.t2.a3 t4024.t2.a4 t4024.t2.a5 t4024.t2.a6 t4024.t2.a7))
% 32.29/32.49 (step t4024.t3 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4024.t4 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4024.t5 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4024.t6 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4024.t7 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4024.t8 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4024.t9 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4024.t10 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4024.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t4024.t2 t4024.t3 t4024.t4 t4024.t5 t4024.t6 t4024.t7 t4024.t8 t4024.t9 t4024.t10))
% 32.29/32.49 (step t4024.t12 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule reordering :premises (t4024.t11))
% 32.29/32.49 (step t4024.t13 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule contraction :premises (t4024.t12))
% 32.29/32.49 (step t4024.t14 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule resolution :premises (t4024.t1 t4024.t13))
% 32.29/32.49 (step t4024.t15 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.29/32.49 (step t4024.t16 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))))) :rule resolution :premises (t4024.t14 t4024.t15))
% 32.29/32.49 (step t4024.t17 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))))) :rule contraction :premises (t4024.t16))
% 32.29/32.49 (step t4024.t18 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule implies :premises (t4024.t17))
% 32.29/32.49 (step t4024.t19 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule and_neg)
% 32.29/32.49 (step t4024.t20 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t4024.t19 t4024.a7 t4024.a2 t4024.a6 t4024.a1 t4024.a4 t4024.a0 t4024.a5 t4024.a3))
% 32.29/32.49 (step t4024.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule resolution :premises (t4024.t18 t4024.t20))
% 32.29/32.49 (step t4024 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t4024.a0 t4024.a1 t4024.a2 t4024.a3 t4024.a4 t4024.a5 t4024.a6 t4024.a7))
% 32.29/32.49 (step t4025 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4026 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4027 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4028 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4029 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4030 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4031 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4032 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4033 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t4024 t4025 t4026 t4027 t4028 t4029 t4030 t4031 t4032))
% 32.29/32.49 (step t4034 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule reordering :premises (t4033))
% 32.29/32.49 (step t4035 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule contraction :premises (t4034))
% 32.29/32.49 (step t4036 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule resolution :premises (t4023 t4035))
% 32.29/32.49 (step t4037 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.29/32.49 (step t4038 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))))) :rule resolution :premises (t4036 t4037))
% 32.29/32.49 (step t4039 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))))) :rule contraction :premises (t4038))
% 32.29/32.49 (step t4040 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule implies :premises (t4039))
% 32.29/32.49 (step t4041 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11)))) :rule resolution :premises (t4022 t4040))
% 32.29/32.49 (step t4042 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t4041))
% 32.29/32.49 (step t4043 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.49 (step t4044 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4045)
% 32.29/32.49 (assume t4045.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4045.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4045.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4045.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.49 (assume t4045.a4 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (assume t4045.a5 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4045.a6 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))
% 32.29/32.49 (assume t4045.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4045.a8 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4045.a9 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (step t4045.t1 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4045.t2)
% 32.29/32.49 (assume t4045.t2.a0 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4045.t2.a1 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4045.t2.a2 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.49 (assume t4045.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4045.t2.a4 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4045.t2.a5 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))
% 32.29/32.49 (assume t4045.t2.a6 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4045.t2.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4045.t2.a8 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (assume t4045.t2.a9 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (step t4045.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13)) :rule symm :premises (t4045.t2.a9))
% 32.29/32.49 (step t4045.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.h2 tptp.e13))) :rule cong :premises (t4045.t2.t1))
% 32.29/32.49 (step t4045.t2.t3 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4045.t2.a8))
% 32.29/32.49 (step t4045.t2.t4 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4045.t2.t3))
% 32.29/32.49 (step t4045.t2.t5 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4045.t2.t4))
% 32.29/32.49 (step t4045.t2.t6 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4045.t2.a7 t4045.t2.a0))
% 32.29/32.49 (step t4045.t2.t7 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4045.t2.a7))
% 32.29/32.49 (step t4045.t2.t8 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4045.t2.a1))
% 32.29/32.49 (step t4045.t2.t9 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4045.t2.t8))
% 32.29/32.49 (step t4045.t2.t10 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4045.t2.t9 t4045.t2.a0))
% 32.29/32.49 (step t4045.t2.t11 (cl (= (tptp.h2 tptp.e11) tptp.e24)) :rule symm :premises (t4045.t2.t10))
% 32.29/32.49 (step t4045.t2.t12 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4045.t2.t7 t4045.t2.t11))
% 32.29/32.49 (step t4045.t2.t13 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.49 (step t4045.t2.t14 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule cong :premises (t4045.t2.a3 t4045.t2.t13))
% 32.29/32.49 (step t4045.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4045.t2.a6))
% 32.29/32.49 (step t4045.t2.t16 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4045.t2.t15))
% 32.29/32.49 (step t4045.t2.t17 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4045.t2.t16))
% 32.29/32.49 (step t4045.t2.t18 (cl (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20)) :rule symm :premises (t4045.t2.a5))
% 32.29/32.49 (step t4045.t2.t19 (cl (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule symm :premises (t4045.t2.t18))
% 32.29/32.49 (step t4045.t2.t20 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t4045.t2.a4))
% 32.29/32.49 (step t4045.t2.t21 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4045.t2.t20))
% 32.29/32.49 (step t4045.t2.t22 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4045.t2.a3))
% 32.29/32.49 (step t4045.t2.t23 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t4045.t2.t13 t4045.t2.t22))
% 32.29/32.49 (step t4045.t2.t24 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.49 (step t4045.t2.t25 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t4045.t2.t9 t4045.t2.t24))
% 32.29/32.49 (step t4045.t2.t26 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t4045.t2.a2))
% 32.29/32.49 (step t4045.t2.t27 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t4045.t2.t21 t4045.t2.t23 t4045.t2.t25 t4045.t2.t26))
% 32.29/32.49 (step t4045.t2.t28 (cl (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule cong :premises (t4045.t2.t10 t4045.t2.t27))
% 32.29/32.49 (step t4045.t2.t29 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule trans :premises (t4045.t2.t2 t4045.t2.t5 t4045.t2.t6 t4045.t2.t12 t4045.t2.t14 t4045.t2.t17 t4045.t2.t19 t4045.t2.t28))
% 32.29/32.49 (step t4045.t2 (cl (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t4045.t2.a0 t4045.t2.a1 t4045.t2.a2 t4045.t2.a3 t4045.t2.a4 t4045.t2.a5 t4045.t2.a6 t4045.t2.a7 t4045.t2.a8 t4045.t2.a9))
% 32.29/32.49 (step t4045.t3 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4045.t4 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4045.t5 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4045.t6 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4045.t7 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4045.t8 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule and_pos)
% 32.29/32.49 (step t4045.t9 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4045.t10 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4045.t11 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4045.t12 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4045.t13 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4045.t2 t4045.t3 t4045.t4 t4045.t5 t4045.t6 t4045.t7 t4045.t8 t4045.t9 t4045.t10 t4045.t11 t4045.t12))
% 32.29/32.49 (step t4045.t14 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule reordering :premises (t4045.t13))
% 32.29/32.49 (step t4045.t15 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule contraction :premises (t4045.t14))
% 32.29/32.49 (step t4045.t16 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule resolution :premises (t4045.t1 t4045.t15))
% 32.29/32.49 (step t4045.t17 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4045.t18 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))))) :rule resolution :premises (t4045.t16 t4045.t17))
% 32.29/32.49 (step t4045.t19 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))))) :rule contraction :premises (t4045.t18))
% 32.29/32.49 (step t4045.t20 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule implies :premises (t4045.t19))
% 32.29/32.49 (step t4045.t21 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule and_neg)
% 32.29/32.49 (step t4045.t22 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4045.t21 t4045.a8 t4045.a5 t4045.a3 t4045.a1 t4045.a2 t4045.a6 t4045.a0 t4045.a7 t4045.a9 t4045.a4))
% 32.29/32.49 (step t4045.t23 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule resolution :premises (t4045.t20 t4045.t22))
% 32.29/32.49 (step t4045 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t4045.a0 t4045.a1 t4045.a2 t4045.a3 t4045.a4 t4045.a5 t4045.a6 t4045.a7 t4045.a8 t4045.a9))
% 32.29/32.49 (step t4046 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4047 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4048 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4049 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4050 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4051 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4052 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule and_pos)
% 32.29/32.49 (step t4053 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4054 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4055 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4056 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4045 t4046 t4047 t4048 t4049 t4050 t4051 t4052 t4053 t4054 t4055))
% 32.29/32.49 (step t4057 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule reordering :premises (t4056))
% 32.29/32.49 (step t4058 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule contraction :premises (t4057))
% 32.29/32.49 (step t4059 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule resolution :premises (t4044 t4058))
% 32.29/32.49 (step t4060 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4061 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))))) :rule resolution :premises (t4059 t4060))
% 32.29/32.49 (step t4062 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))))) :rule contraction :premises (t4061))
% 32.29/32.49 (step t4063 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule implies :premises (t4062))
% 32.29/32.49 (step t4064 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10)))) :rule resolution :premises (t4043 t4063))
% 32.29/32.49 (step t4065 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4064))
% 32.29/32.49 (step t4066 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))) :rule resolution :premises (t3998 t4021 t801 t778 t777 t776 t864 t461 t865 t4042 t1588 t1566 t1565 t864 t461 t865 t4065 t801 t778 t777 t776 t864 t461 t865))
% 32.29/32.49 (step t4067 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t4066))
% 32.29/32.49 (step t4068 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.29/32.49 (step t4069 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4070)
% 32.29/32.49 (assume t4070.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4070.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4070.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4070.a3 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (assume t4070.a4 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.49 (assume t4070.a5 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.49 (assume t4070.a6 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.49 (assume t4070.a7 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.49 (step t4070.t1 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4070.t2)
% 32.29/32.49 (assume t4070.t2.a0 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.49 (assume t4070.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4070.t2.a2 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.49 (assume t4070.t2.a3 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4070.t2.a4 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.49 (assume t4070.t2.a5 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4070.t2.a6 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.49 (assume t4070.t2.a7 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (step t4070.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13)) :rule symm :premises (t4070.t2.a7))
% 32.29/32.49 (step t4070.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.h5 tptp.e13))) :rule cong :premises (t4070.t2.t1))
% 32.29/32.49 (step t4070.t2.t3 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4070.t2.a6))
% 32.29/32.49 (step t4070.t2.t4 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t4070.t2.t3))
% 32.29/32.49 (step t4070.t2.t5 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4070.t2.t4))
% 32.29/32.49 (step t4070.t2.t6 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t4070.t2.a5))
% 32.29/32.49 (step t4070.t2.t7 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4070.t2.t6))
% 32.29/32.49 (step t4070.t2.t8 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t4070.t2.t7))
% 32.29/32.49 (step t4070.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23)) :rule symm :premises (t4070.t2.a4))
% 32.29/32.49 (step t4070.t2.t10 (cl (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule symm :premises (t4070.t2.t9))
% 32.29/32.49 (step t4070.t2.t11 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4070.t2.a1))
% 32.29/32.49 (step t4070.t2.t12 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t4070.t2.t11))
% 32.29/32.49 (step t4070.t2.t13 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t4070.t2.a0))
% 32.29/32.49 (step t4070.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t4070.t2.t13))
% 32.29/32.49 (step t4070.t2.t15 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t4070.t2.t12 t4070.t2.t14))
% 32.29/32.49 (step t4070.t2.t16 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4070.t2.a3))
% 32.29/32.49 (step t4070.t2.t17 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4070.t2.t16))
% 32.29/32.49 (step t4070.t2.t18 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4070.t2.a2))
% 32.29/32.49 (step t4070.t2.t19 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t4070.t2.t18))
% 32.29/32.49 (step t4070.t2.t20 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t4070.t2.t17 t4070.t2.t19))
% 32.29/32.49 (step t4070.t2.t21 (cl (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule cong :premises (t4070.t2.t15 t4070.t2.t20))
% 32.29/32.49 (step t4070.t2.t22 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule trans :premises (t4070.t2.t2 t4070.t2.t5 t4070.t2.t8 t4070.t2.t10 t4070.t2.t21))
% 32.29/32.49 (step t4070.t2 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t4070.t2.a0 t4070.t2.a1 t4070.t2.a2 t4070.t2.a3 t4070.t2.a4 t4070.t2.a5 t4070.t2.a6 t4070.t2.a7))
% 32.29/32.49 (step t4070.t3 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4070.t4 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4070.t5 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4070.t6 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4070.t7 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.49 (step t4070.t8 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4070.t9 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4070.t10 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4070.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4070.t2 t4070.t3 t4070.t4 t4070.t5 t4070.t6 t4070.t7 t4070.t8 t4070.t9 t4070.t10))
% 32.29/32.49 (step t4070.t12 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule reordering :premises (t4070.t11))
% 32.29/32.49 (step t4070.t13 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule contraction :premises (t4070.t12))
% 32.29/32.49 (step t4070.t14 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule resolution :premises (t4070.t1 t4070.t13))
% 32.29/32.49 (step t4070.t15 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4070.t16 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))))) :rule resolution :premises (t4070.t14 t4070.t15))
% 32.29/32.49 (step t4070.t17 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))))) :rule contraction :premises (t4070.t16))
% 32.29/32.49 (step t4070.t18 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule implies :premises (t4070.t17))
% 32.29/32.49 (step t4070.t19 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule and_neg)
% 32.29/32.49 (step t4070.t20 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4070.t19 t4070.a6 t4070.a1 t4070.a5 t4070.a0 t4070.a4 t4070.a2 t4070.a7 t4070.a3))
% 32.29/32.49 (step t4070.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule resolution :premises (t4070.t18 t4070.t20))
% 32.29/32.49 (step t4070 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t4070.a0 t4070.a1 t4070.a2 t4070.a3 t4070.a4 t4070.a5 t4070.a6 t4070.a7))
% 32.29/32.49 (step t4071 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4072 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4073 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4074 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4075 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.49 (step t4076 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4077 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4078 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4079 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t4070 t4071 t4072 t4073 t4074 t4075 t4076 t4077 t4078))
% 32.29/32.49 (step t4080 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule reordering :premises (t4079))
% 32.29/32.49 (step t4081 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule contraction :premises (t4080))
% 32.29/32.49 (step t4082 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule resolution :premises (t4069 t4081))
% 32.29/32.49 (step t4083 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4084 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))))) :rule resolution :premises (t4082 t4083))
% 32.29/32.49 (step t4085 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))))) :rule contraction :premises (t4084))
% 32.29/32.49 (step t4086 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule implies :premises (t4085))
% 32.29/32.49 (step t4087 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10)))) :rule resolution :premises (t4068 t4086))
% 32.29/32.49 (step t4088 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t4087))
% 32.29/32.49 (step t4089 (cl (not (= (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (or (= tptp.e12 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))))) (not (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) (or (= tptp.e12 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.49 (step t4090 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule refl)
% 32.29/32.49 (step t4091 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule refl)
% 32.29/32.49 (step t4092 (cl (= (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (or (= tptp.e12 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))))) :rule cong :premises (t3487 t4090 t4091))
% 32.29/32.49 (step t4093 (cl (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule and_neg)
% 32.29/32.49 (step t4094 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4095)
% 32.29/32.49 (assume t4095.a0 (not (= tptp.e12 tptp.e13)))
% 32.29/32.49 (assume t4095.a1 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (step t4095.t1 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4095.t2)
% 32.29/32.49 (assume t4095.t2.a0 (not (= tptp.e12 tptp.e13)))
% 32.29/32.49 (assume t4095.t2.a1 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (step t4095.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) false) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.49 (step t4095.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) false)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule equiv1 :premises (t4095.t2.t1))
% 32.29/32.49 (step t4095.t2.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.49 (step t4095.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13)) :rule symm :premises (t4095.t2.a1))
% 32.29/32.49 (step t4095.t2.t5 (cl (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e12 tptp.e13))) :rule cong :premises (t4095.t2.t3 t4095.t2.t4))
% 32.29/32.49 (step t4095.t2.t6 (cl (= (= (= tptp.e12 tptp.e13) false) (not (= tptp.e12 tptp.e13)))) :rule equiv_simplify)
% 32.29/32.49 (step t4095.t2.t7 (cl (= (= tptp.e12 tptp.e13) false) (not (not (= tptp.e12 tptp.e13)))) :rule equiv2 :premises (t4095.t2.t6))
% 32.29/32.49 (step t4095.t2.t8 (cl (not (not (not (= tptp.e12 tptp.e13)))) (= tptp.e12 tptp.e13)) :rule not_not)
% 32.29/32.49 (step t4095.t2.t9 (cl (= (= tptp.e12 tptp.e13) false) (= tptp.e12 tptp.e13)) :rule resolution :premises (t4095.t2.t7 t4095.t2.t8))
% 32.29/32.49 (step t4095.t2.t10 (cl (= (= tptp.e12 tptp.e13) false)) :rule resolution :premises (t4095.t2.t9 t4095.t2.a0))
% 32.29/32.49 (step t4095.t2.t11 (cl (= (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)) false)) :rule trans :premises (t4095.t2.t5 t4095.t2.t10))
% 32.29/32.49 (step t4095.t2.t12 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4095.t2.t2 t4095.t2.t11))
% 32.29/32.49 (step t4095.t2 (cl (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t4095.t2.a0 t4095.t2.a1))
% 32.29/32.49 (step t4095.t3 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4095.t4 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4095.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4095.t2 t4095.t3 t4095.t4))
% 32.29/32.49 (step t4095.t6 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t4095.t5))
% 32.29/32.49 (step t4095.t7 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t4095.t6))
% 32.29/32.49 (step t4095.t8 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4095.t1 t4095.t7))
% 32.29/32.49 (step t4095.t9 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4095.t10 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4095.t8 t4095.t9))
% 32.29/32.49 (step t4095.t11 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t4095.t10))
% 32.29/32.49 (step t4095.t12 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t4095.t11))
% 32.29/32.49 (step t4095.t13 (cl (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule and_neg)
% 32.29/32.49 (step t4095.t14 (cl (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4095.t13 t4095.a0 t4095.a1))
% 32.29/32.49 (step t4095.t15 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4095.t12 t4095.t14))
% 32.29/32.49 (step t4095 (cl (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t4095.a0 t4095.a1))
% 32.29/32.49 (step t4096 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4097 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4098 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4095 t4096 t4097))
% 32.29/32.49 (step t4099 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t4098))
% 32.29/32.49 (step t4100 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t4099))
% 32.29/32.49 (step t4101 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4094 t4100))
% 32.29/32.49 (step t4102 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4103 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4101 t4102))
% 32.29/32.49 (step t4104 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t4103))
% 32.29/32.49 (step t4105 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t4104))
% 32.29/32.49 (step t4106 (cl (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4093 t4105))
% 32.29/32.49 (step t4107 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (not (= tptp.e12 tptp.e13))))) :rule or_neg)
% 32.29/32.49 (step t4108 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule or_neg)
% 32.29/32.49 (step t4109 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule or_neg)
% 32.29/32.49 (step t4110 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4106 t4107 t4108 t4109))
% 32.29/32.49 (step t4111 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t4110))
% 32.29/32.49 (step t4112 (cl (or (= tptp.e12 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4089 t4092 t4111))
% 32.29/32.49 (step t4113 (cl (= tptp.e12 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10)))) :rule or :premises (t4112))
% 32.29/32.49 (step t4114 (cl (= tptp.e12 tptp.e13) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t4113))
% 32.29/32.49 (step t4115 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.49 (step t4116 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.49 (step t4117 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule equiv1 :premises (t4116))
% 32.29/32.49 (step t4118 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))))) :rule all_simplify)
% 32.29/32.49 (step t4119 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule refl)
% 32.29/32.49 (step t4120 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule all_simplify)
% 32.29/32.49 (step t4121 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule cong :premises (t4119 t4120))
% 32.29/32.49 (step t4122 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) true)) :rule all_simplify)
% 32.29/32.49 (step t4123 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) true)) :rule trans :premises (t4121 t4122))
% 32.29/32.49 (step t4124 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) true)) :rule trans :premises (t4118 t4123))
% 32.29/32.49 (step t4125 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t4117 t4124))
% 32.29/32.49 (step t4126 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule refl)
% 32.29/32.49 (step t4127 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))))) :rule cong :premises (t1111 t1415 t4090 t1114 t1115 t4125 t4126))
% 32.29/32.49 (step t4128 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule and_neg)
% 32.29/32.49 (step t4129 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4130)
% 32.29/32.49 (assume t4130.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.49 (assume t4130.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.49 (assume t4130.a2 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (assume t4130.a3 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.49 (assume t4130.a4 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (assume t4130.a5 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))
% 32.29/32.49 (step t4130.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4130.t2)
% 32.29/32.49 (assume t4130.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))
% 32.29/32.49 (assume t4130.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.49 (assume t4130.t2.a2 (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))
% 32.29/32.49 (assume t4130.t2.a3 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (step t4130.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) false) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.49 (step t4130.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) false)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule equiv1 :premises (t4130.t2.t1))
% 32.29/32.49 (step t4130.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule symm :premises (t4130.t2.a1))
% 32.29/32.49 (step t4130.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t4130.t2.t3))
% 32.29/32.49 (step t4130.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13)) :rule symm :premises (t4130.t2.a3))
% 32.29/32.49 (step t4130.t2.t6 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule symm :premises (t4130.t2.a2))
% 32.29/32.49 (step t4130.t2.t7 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule symm :premises (t4130.t2.t6))
% 32.29/32.49 (step t4130.t2.t8 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t4130.t2.t5 t4130.t2.t7))
% 32.29/32.49 (step t4130.t2.t9 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule cong :premises (t4130.t2.t4 t4130.t2.t8))
% 32.29/32.49 (step t4130.t2.t10 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.49 (step t4130.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv2 :premises (t4130.t2.t10))
% 32.29/32.49 (step t4130.t2.t12 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) :rule not_not)
% 32.29/32.49 (step t4130.t2.t13 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t4130.t2.t11 t4130.t2.t12))
% 32.29/32.49 (step t4130.t2.t14 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) false)) :rule resolution :premises (t4130.t2.t13 t4130.t2.a0))
% 32.29/32.49 (step t4130.t2.t15 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) false)) :rule trans :premises (t4130.t2.t9 t4130.t2.t14))
% 32.29/32.49 (step t4130.t2.t16 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4130.t2.t2 t4130.t2.t15))
% 32.29/32.49 (step t4130.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t4130.t2.a0 t4130.t2.a1 t4130.t2.a2 t4130.t2.a3))
% 32.29/32.49 (step t4130.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule and_pos)
% 32.29/32.49 (step t4130.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4130.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4130.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4130.t7 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4130.t2 t4130.t3 t4130.t4 t4130.t5 t4130.t6))
% 32.29/32.49 (step t4130.t8 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t4130.t7))
% 32.29/32.49 (step t4130.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t4130.t8))
% 32.29/32.49 (step t4130.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4130.t1 t4130.t9))
% 32.29/32.49 (step t4130.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4130.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4130.t10 t4130.t11))
% 32.29/32.49 (step t4130.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t4130.t12))
% 32.29/32.49 (step t4130.t14 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t4130.t13))
% 32.29/32.49 (step t4130.t15 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule and_neg)
% 32.29/32.49 (step t4130.t16 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4130.t17)
% 32.29/32.49 (assume t4130.t17.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (assume t4130.t17.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.49 (step t4130.t17.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t4130.t17.a1))
% 32.29/32.49 (step t4130.t17.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t4130.t17.t1))
% 32.29/32.49 (step t4130.t17.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.49 (step t4130.t17.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4130.t17.a0))
% 32.29/32.49 (step t4130.t17.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e12))) :rule cong :premises (t4130.t17.t3 t4130.t17.t4))
% 32.29/32.49 (step t4130.t17.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t4130.t17.t2 t4130.t17.t5))
% 32.29/32.49 (step t4130.t17 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule subproof :discharge (t4130.t17.a0 t4130.t17.a1))
% 32.29/32.49 (step t4130.t18 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4130.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.49 (step t4130.t20 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t4130.t17 t4130.t18 t4130.t19))
% 32.29/32.49 (step t4130.t21 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule reordering :premises (t4130.t20))
% 32.29/32.49 (step t4130.t22 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t4130.t21))
% 32.29/32.49 (step t4130.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t4130.t16 t4130.t22))
% 32.29/32.49 (step t4130.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg2)
% 32.29/32.49 (step t4130.t25 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t4130.t23 t4130.t24))
% 32.29/32.49 (step t4130.t26 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t4130.t25))
% 32.29/32.49 (step t4130.t27 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule implies :premises (t4130.t26))
% 32.29/32.49 (step t4130.t28 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.49 (step t4130.t29 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t4130.t28 t4130.a4 t4130.a3))
% 32.29/32.49 (step t4130.t30 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t4130.t27 t4130.t29))
% 32.29/32.49 (step t4130.t31 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4130.t32)
% 32.29/32.49 (assume t4130.t32.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.49 (assume t4130.t32.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.49 (step t4130.t32.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t4130.t32.a1))
% 32.29/32.49 (step t4130.t32.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t4130.t32.t1))
% 32.29/32.49 (step t4130.t32.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.49 (step t4130.t32.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t4130.t32.a0))
% 32.29/32.49 (step t4130.t32.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op1 tptp.e14 tptp.e11))) :rule cong :premises (t4130.t32.t3 t4130.t32.t4))
% 32.29/32.49 (step t4130.t32.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t4130.t32.t2 t4130.t32.t5))
% 32.29/32.49 (step t4130.t32 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule subproof :discharge (t4130.t32.a0 t4130.t32.a1))
% 32.29/32.49 (step t4130.t33 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4130.t34 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.49 (step t4130.t35 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t4130.t32 t4130.t33 t4130.t34))
% 32.29/32.49 (step t4130.t36 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule reordering :premises (t4130.t35))
% 32.29/32.49 (step t4130.t37 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule contraction :premises (t4130.t36))
% 32.29/32.49 (step t4130.t38 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t4130.t31 t4130.t37))
% 32.29/32.49 (step t4130.t39 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg2)
% 32.29/32.49 (step t4130.t40 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t4130.t38 t4130.t39))
% 32.29/32.49 (step t4130.t41 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t4130.t40))
% 32.29/32.49 (step t4130.t42 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule implies :premises (t4130.t41))
% 32.29/32.49 (step t4130.t43 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.49 (step t4130.t44 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4130.t43 t4130.a0 t4130.a1))
% 32.29/32.49 (step t4130.t45 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t4130.t42 t4130.t44))
% 32.29/32.49 (step t4130.t46 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4130.t15 t4130.a5 t4130.t30 t4130.t45 t4130.a2))
% 32.29/32.49 (step t4130.t47 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4130.t14 t4130.t46))
% 32.29/32.49 (step t4130 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t4130.a0 t4130.a1 t4130.a2 t4130.a3 t4130.a4 t4130.a5))
% 32.29/32.49 (step t4131 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4132 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.49 (step t4133 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4134 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.49 (step t4135 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4136 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule and_pos)
% 32.29/32.49 (step t4137 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))))) :rule resolution :premises (t4130 t4131 t4132 t4133 t4134 t4135 t4136))
% 32.29/32.49 (step t4138 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t4137))
% 32.29/32.49 (step t4139 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t4138))
% 32.29/32.49 (step t4140 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4129 t4139))
% 32.29/32.49 (step t4141 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4142 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4140 t4141))
% 32.29/32.49 (step t4143 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t4142))
% 32.29/32.49 (step t4144 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t4143))
% 32.29/32.49 (step t4145 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4128 t4144))
% 32.29/32.49 (step t4146 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.49 (step t4147 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.49 (step t4148 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule or_neg)
% 32.29/32.49 (step t4149 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.49 (step t4150 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.29/32.49 (step t4151 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))))) :rule or_neg)
% 32.29/32.49 (step t4152 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule or_neg)
% 32.29/32.49 (step t4153 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4145 t4146 t4147 t4148 t4149 t4150 t4151 t4152))
% 32.29/32.49 (step t4154 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t4153))
% 32.29/32.49 (step t4155 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4115 t4127 t4154))
% 32.29/32.49 (step t4156 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule or :premises (t4155))
% 32.29/32.49 (step t4157 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t4156))
% 32.29/32.49 (step t4158 (cl (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule and :premises (t1360))
% 32.29/32.49 (step t4159 (cl (not (= (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))))) (not (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.49 (step t4160 (cl (= (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.49 (step t4161 (cl (not (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t4160))
% 32.29/32.49 (step t4162 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))))) :rule all_simplify)
% 32.29/32.49 (step t4163 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule refl)
% 32.29/32.49 (step t4164 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule all_simplify)
% 32.29/32.49 (step t4165 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule cong :premises (t4163 t4164))
% 32.29/32.49 (step t4166 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) true)) :rule all_simplify)
% 32.29/32.49 (step t4167 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) true)) :rule trans :premises (t4165 t4166))
% 32.29/32.49 (step t4168 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) true)) :rule trans :premises (t4162 t4167))
% 32.29/32.49 (step t4169 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t4161 t4168))
% 32.29/32.49 (step t4170 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule refl)
% 32.29/32.49 (step t4171 (cl (= (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))))) :rule cong :premises (t4090 t4169 t4170))
% 32.29/32.49 (step t4172 (cl (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule and_neg)
% 32.29/32.49 (step t4173 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4174)
% 32.29/32.49 (assume t4174.a0 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (assume t4174.a1 (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))
% 32.29/32.49 (step t4174.t1 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4174.t2)
% 32.29/32.49 (assume t4174.t2.a0 (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))
% 32.29/32.49 (assume t4174.t2.a1 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.49 (step t4174.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) false) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.49 (step t4174.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) false)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t4174.t2.t1))
% 32.29/32.49 (step t4174.t2.t3 (cl (= (tptp.op1 tptp.e11 tptp.e10) tptp.e13)) :rule symm :premises (t4174.t2.a1))
% 32.29/32.49 (step t4174.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule symm :premises (t4174.t2.t3))
% 32.29/32.49 (step t4174.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule refl)
% 32.29/32.49 (step t4174.t2.t6 (cl (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule cong :premises (t4174.t2.t4 t4174.t2.t5))
% 32.29/32.49 (step t4174.t2.t7 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.49 (step t4174.t2.t8 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv2 :premises (t4174.t2.t7))
% 32.29/32.49 (step t4174.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule not_not)
% 32.29/32.49 (step t4174.t2.t10 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule resolution :premises (t4174.t2.t8 t4174.t2.t9))
% 32.29/32.49 (step t4174.t2.t11 (cl (= (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false)) :rule resolution :premises (t4174.t2.t10 t4174.t2.a0))
% 32.29/32.49 (step t4174.t2.t12 (cl (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) false)) :rule trans :premises (t4174.t2.t6 t4174.t2.t11))
% 32.29/32.49 (step t4174.t2.t13 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t4174.t2.t2 t4174.t2.t12))
% 32.29/32.49 (step t4174.t2 (cl (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t4174.t2.a0 t4174.t2.a1))
% 32.29/32.49 (step t4174.t3 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.29/32.49 (step t4174.t4 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4174.t5 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t4174.t2 t4174.t3 t4174.t4))
% 32.29/32.49 (step t4174.t6 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t4174.t5))
% 32.29/32.49 (step t4174.t7 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t4174.t6))
% 32.29/32.49 (step t4174.t8 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t4174.t1 t4174.t7))
% 32.29/32.49 (step t4174.t9 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4174.t10 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t4174.t8 t4174.t9))
% 32.29/32.49 (step t4174.t11 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t4174.t10))
% 32.29/32.49 (step t4174.t12 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t4174.t11))
% 32.29/32.49 (step t4174.t13 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule and_neg)
% 32.29/32.49 (step t4174.t14 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t4174.t13 t4174.a1 t4174.a0))
% 32.29/32.49 (step t4174.t15 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t4174.t12 t4174.t14))
% 32.29/32.49 (step t4174 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t4174.a0 t4174.a1))
% 32.29/32.49 (step t4175 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4176 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.29/32.49 (step t4177 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))))) :rule resolution :premises (t4174 t4175 t4176))
% 32.29/32.49 (step t4178 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t4177))
% 32.29/32.49 (step t4179 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t4178))
% 32.29/32.49 (step t4180 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t4173 t4179))
% 32.29/32.49 (step t4181 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4182 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t4180 t4181))
% 32.29/32.49 (step t4183 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t4182))
% 32.29/32.49 (step t4184 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t4183))
% 32.29/32.49 (step t4185 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t4172 t4184))
% 32.29/32.49 (step t4186 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule or_neg)
% 32.29/32.49 (step t4187 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))))) :rule or_neg)
% 32.29/32.49 (step t4188 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule or_neg)
% 32.29/32.49 (step t4189 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t4185 t4186 t4187 t4188))
% 32.29/32.49 (step t4190 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t4189))
% 32.29/32.49 (step t4191 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t4159 t4171 t4190))
% 32.29/32.49 (step t4192 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule or :premises (t4191))
% 32.29/32.49 (step t4193 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t4192))
% 32.29/32.49 (step t4194 (cl (not (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule and :premises (t1360))
% 32.29/32.49 (step t4195 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4196 (cl (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))))) :rule reordering :premises (t4195))
% 32.29/32.49 (step t4197 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13))))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4198 (cl (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))))) :rule reordering :premises (t4197))
% 32.29/32.49 (step t4199 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t4067 t4088 t1588 t1566 t1565 t864 t461 t865 t2819 t2820 t4114 t3514 t4157 t799 t767 t4158 t1381 t4193 t4194 t4196 t4198 t2783 t767 t768 t2784))
% 32.29/32.49 (step t4200 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) :rule contraction :premises (t4199))
% 32.29/32.49 (step t4201 (cl (not (= (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv_pos2)
% 32.29/32.49 (step t4202 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))))) :rule refl)
% 32.29/32.49 (step t4203 (cl (= (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))))) :rule refl)
% 32.29/32.49 (step t4204 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.49 (step t4205 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv1 :premises (t4204))
% 32.29/32.49 (step t4206 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))))) :rule all_simplify)
% 32.29/32.49 (step t4207 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule refl)
% 32.29/32.49 (step t4208 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.29/32.49 (step t4209 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t4207 t4208))
% 32.29/32.49 (step t4210 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) true)) :rule all_simplify)
% 32.29/32.49 (step t4211 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) true)) :rule trans :premises (t4209 t4210))
% 32.29/32.49 (step t4212 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) true)) :rule trans :premises (t4206 t4211))
% 32.29/32.49 (step t4213 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t4205 t4212))
% 32.29/32.49 (step t4214 (cl (= (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t1953 t4202 t4203 t4213))
% 32.29/32.49 (step t4215 (cl (not (= (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))))) (not (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule equiv_pos2)
% 32.29/32.49 (step t4216 (cl (= (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule refl)
% 32.29/32.49 (step t4217 (cl (= (= (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))))) :rule equiv_simplify)
% 32.29/32.49 (step t4218 (cl (= (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) (not (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))))) :rule equiv2 :premises (t4217))
% 32.29/32.49 (step t4219 (cl (not (not (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule not_not)
% 32.29/32.49 (step t4220 (cl (= (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t4218 t4219))
% 32.29/32.49 (step t4221 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4222)
% 32.29/32.49 (assume t4222.a0 (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)))
% 32.29/32.49 (assume t4222.a1 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)))
% 32.29/32.49 (assume t4222.a2 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.49 (assume t4222.a3 (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))
% 32.29/32.49 (step t4222.t1 (cl (not (= (= false true) false)) (not (= false true)) false) :rule equiv_pos2)
% 32.29/32.49 (step t4222.t2 (cl (= (= false true) false)) :rule all_simplify)
% 32.29/32.49 (step t4222.t3 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) false) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.49 (step t4222.t4 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv2 :premises (t4222.t3))
% 32.29/32.49 (step t4222.t5 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) :rule not_not)
% 32.29/32.49 (step t4222.t6 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) false) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) :rule resolution :premises (t4222.t4 t4222.t5))
% 32.29/32.49 (step t4222.t7 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) false)) :rule resolution :premises (t4222.t6 t4222.a3))
% 32.29/32.49 (step t4222.t8 (cl (= false (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule symm :premises (t4222.t7))
% 32.29/32.49 (step t4222.t9 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) true) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv_simplify)
% 32.29/32.49 (step t4222.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) true) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv2 :premises (t4222.t9))
% 32.29/32.49 (step t4222.t11 (cl (= (tptp.op1 tptp.e13 tptp.e13) tptp.e10)) :rule symm :premises (t4222.a1))
% 32.29/32.49 (step t4222.t12 (cl (= (tptp.op1 tptp.unit1 tptp.e10) tptp.e10)) :rule symm :premises (t4222.a0))
% 32.29/32.49 (step t4222.t13 (cl (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) :rule symm :premises (t4222.t12))
% 32.29/32.49 (step t4222.t14 (cl (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10)) :rule symm :premises (t4222.a2))
% 32.29/32.49 (step t4222.t15 (cl (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.unit1 tptp.e10))) :rule trans :premises (t4222.t14 t4222.t13))
% 32.29/32.49 (step t4222.t16 (cl (= (tptp.op1 tptp.unit1 tptp.e10) (tptp.op1 tptp.e13 tptp.e11))) :rule symm :premises (t4222.t15))
% 32.29/32.49 (step t4222.t17 (cl (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) :rule trans :premises (t4222.t11 t4222.t13 t4222.t16))
% 32.29/32.49 (step t4222.t18 (cl (= (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) true)) :rule resolution :premises (t4222.t10 t4222.t17))
% 32.29/32.49 (step t4222.t19 (cl (= false true)) :rule trans :premises (t4222.t8 t4222.t18))
% 32.29/32.49 (step t4222.t20 (cl false) :rule resolution :premises (t4222.t1 t4222.t2 t4222.t19))
% 32.29/32.49 (step t4222 (cl (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) :rule subproof :discharge (t4222.a0 t4222.a1 t4222.a2 t4222.a3))
% 32.29/32.49 (step t4223 (cl (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4224 (cl (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4225 (cl (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4226 (cl (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule and_pos)
% 32.29/32.49 (step t4227 (cl false (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule resolution :premises (t4222 t4223 t4224 t4225 t4226))
% 32.29/32.49 (step t4228 (cl (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) false) :rule reordering :premises (t4227))
% 32.29/32.49 (step t4229 (cl (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) false) :rule contraction :premises (t4228))
% 32.29/32.49 (step t4230 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) false) :rule resolution :premises (t4221 t4229))
% 32.29/32.49 (step t4231 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) (not false)) :rule implies_neg2)
% 32.29/32.49 (step t4232 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) (=> (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false)) :rule resolution :premises (t4230 t4231))
% 32.29/32.49 (step t4233 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false)) :rule contraction :premises (t4232))
% 32.29/32.49 (step t4234 (cl (= (=> (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))))) :rule implies_simplify)
% 32.29/32.49 (step t4235 (cl (not (=> (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false)) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule equiv1 :premises (t4234))
% 32.29/32.49 (step t4236 (cl (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule resolution :premises (t4233 t4235))
% 32.29/32.49 (step t4237 (cl (= (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false)) :rule resolution :premises (t4220 t4236))
% 32.29/32.49 (step t4238 (cl (= (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false))) :rule cong :premises (t4216 t4237))
% 32.29/32.49 (step t4239 (cl (= (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) false) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))))) :rule all_simplify)
% 32.29/32.49 (step t4240 (cl (= (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))))) :rule trans :premises (t4238 t4239))
% 32.29/32.49 (step t4241 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4242)
% 32.29/32.49 (assume t4242.a0 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.49 (assume t4242.a1 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)))
% 32.29/32.49 (assume t4242.a2 (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)))
% 32.29/32.49 (assume t4242.a3 (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))
% 32.29/32.49 (step t4242.t1 (cl (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule and_neg)
% 32.29/32.49 (step t4242.t2 (cl (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t4242.t1 t4242.a2 t4242.a1 t4242.a0 t4242.a3))
% 32.29/32.49 (step t4242 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule subproof :discharge (t4242.a0 t4242.a1 t4242.a2 t4242.a3))
% 32.29/32.49 (step t4243 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4244 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4245 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4246 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule and_pos)
% 32.29/32.49 (step t4247 (cl (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule resolution :premises (t4242 t4243 t4244 t4245 t4246))
% 32.29/32.49 (step t4248 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule reordering :premises (t4247))
% 32.29/32.49 (step t4249 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t4248))
% 32.29/32.49 (step t4250 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t4241 t4249))
% 32.29/32.49 (step t4251 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule implies_neg2)
% 32.29/32.49 (step t4252 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule resolution :premises (t4250 t4251))
% 32.29/32.49 (step t4253 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule contraction :premises (t4252))
% 32.29/32.49 (step t4254 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule resolution :premises (t4215 t4240 t4253))
% 32.29/32.49 (step t4255 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) :rule not_and :premises (t4254))
% 32.29/32.49 (step t4256 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule or_neg)
% 32.29/32.49 (step t4257 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))))) :rule or_neg)
% 32.29/32.49 (step t4258 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))))) :rule or_neg)
% 32.29/32.49 (step t4259 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule or_neg)
% 32.29/32.49 (step t4260 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))))) (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule resolution :premises (t4255 t4256 t4257 t4258 t4259))
% 32.29/32.49 (step t4261 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))))) :rule contraction :premises (t4260))
% 32.29/32.49 (step t4262 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t4201 t4214 t4261))
% 32.29/32.49 (step t4263 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11))) :rule or :premises (t4262))
% 32.29/32.49 (step t4264 (cl (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)))) :rule reordering :premises (t4263))
% 32.29/32.49 (step t4265 (cl (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e11)))) :rule and :premises (t1360))
% 32.29/32.49 (step t4266 (cl (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) :rule and :premises (t1380))
% 32.29/32.49 (step t4267 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t4200 t4264 t4265 t4266))
% 32.29/32.49 (step t4268 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t4267))
% 32.29/32.49 (step t4269 (cl (or (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule and :premises (t1410))
% 32.29/32.49 (step t4270 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule or :premises (t4269))
% 32.29/32.49 (step t4271 (cl (not (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))))) (not (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.49 (step t4272 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.49 (step t4273 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule equiv1 :premises (t4272))
% 32.29/32.49 (step t4274 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))))) :rule all_simplify)
% 32.29/32.49 (step t4275 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule refl)
% 32.29/32.49 (step t4276 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.29/32.49 (step t4277 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t4275 t4276))
% 32.29/32.49 (step t4278 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) :rule all_simplify)
% 32.29/32.49 (step t4279 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) true)) :rule trans :premises (t4277 t4278))
% 32.29/32.49 (step t4280 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) :rule trans :premises (t4274 t4279))
% 32.29/32.49 (step t4281 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4273 t4280))
% 32.29/32.49 (step t4282 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule refl)
% 32.29/32.49 (step t4283 (cl (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))))) :rule cong :premises (t1414 t1415 t4281 t4282))
% 32.29/32.49 (step t4284 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule and_neg)
% 32.29/32.49 (step t4285 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4286)
% 32.29/32.49 (assume t4286.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.49 (assume t4286.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.49 (assume t4286.a2 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))
% 32.29/32.49 (step t4286.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4286.t2)
% 32.29/32.49 (assume t4286.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))
% 32.29/32.49 (assume t4286.t2.a1 (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))
% 32.29/32.49 (step t4286.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) false) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.49 (step t4286.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) false)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule equiv1 :premises (t4286.t2.t1))
% 32.29/32.49 (step t4286.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule symm :premises (t4286.t2.a1))
% 32.29/32.49 (step t4286.t2.t4 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule symm :premises (t4286.t2.t3))
% 32.29/32.49 (step t4286.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule refl)
% 32.29/32.49 (step t4286.t2.t6 (cl (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule cong :premises (t4286.t2.t4 t4286.t2.t5))
% 32.29/32.49 (step t4286.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.49 (step t4286.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv2 :premises (t4286.t2.t7))
% 32.29/32.49 (step t4286.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule not_not)
% 32.29/32.49 (step t4286.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule resolution :premises (t4286.t2.t8 t4286.t2.t9))
% 32.29/32.49 (step t4286.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false)) :rule resolution :premises (t4286.t2.t10 t4286.t2.a0))
% 32.29/32.49 (step t4286.t2.t12 (cl (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) false)) :rule trans :premises (t4286.t2.t6 t4286.t2.t11))
% 32.29/32.49 (step t4286.t2.t13 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4286.t2.t2 t4286.t2.t12))
% 32.29/32.49 (step t4286.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t4286.t2.a0 t4286.t2.a1))
% 32.29/32.49 (step t4286.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and_pos)
% 32.29/32.49 (step t4286.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4286.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t4286.t2 t4286.t3 t4286.t4))
% 32.29/32.49 (step t4286.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t4286.t5))
% 32.29/32.49 (step t4286.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t4286.t6))
% 32.29/32.49 (step t4286.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4286.t1 t4286.t7))
% 32.29/32.49 (step t4286.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.29/32.49 (step t4286.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t4286.t8 t4286.t9))
% 32.29/32.49 (step t4286.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t4286.t10))
% 32.29/32.49 (step t4286.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t4286.t11))
% 32.29/32.49 (step t4286.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule and_neg)
% 32.29/32.49 (step t4286.t14 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4286.t15)
% 32.29/32.49 (assume t4286.t15.a0 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.49 (assume t4286.t15.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.49 (step t4286.t15.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t4286.t15.a1))
% 32.29/32.49 (step t4286.t15.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t4286.t15.t1))
% 32.29/32.49 (step t4286.t15.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t4286.t15.a0))
% 32.29/32.49 (step t4286.t15.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t4286.t15.t3))
% 32.29/32.49 (step t4286.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t4286.t15.t4))
% 32.29/32.49 (step t4286.t15.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.49 (step t4286.t15.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t4286.t15.t5 t4286.t15.t6))
% 32.29/32.49 (step t4286.t15.t8 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t4286.t15.t2 t4286.t15.t7))
% 32.29/32.49 (step t4286.t15 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule subproof :discharge (t4286.t15.a0 t4286.t15.a1))
% 32.29/32.49 (step t4286.t16 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.49 (step t4286.t17 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4286.t18 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t4286.t15 t4286.t16 t4286.t17))
% 32.29/32.49 (step t4286.t19 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule reordering :premises (t4286.t18))
% 32.29/32.49 (step t4286.t20 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t4286.t19))
% 32.29/32.49 (step t4286.t21 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t4286.t14 t4286.t20))
% 32.29/32.49 (step t4286.t22 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg2)
% 32.29/32.49 (step t4286.t23 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t4286.t21 t4286.t22))
% 32.29/32.49 (step t4286.t24 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t4286.t23))
% 32.29/32.49 (step t4286.t25 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule implies :premises (t4286.t24))
% 32.29/32.49 (step t4286.t26 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.29/32.49 (step t4286.t27 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t4286.t26 t4286.a1 t4286.a0))
% 32.29/32.49 (step t4286.t28 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t4286.t25 t4286.t27))
% 32.29/32.49 (step t4286.t29 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t4286.t13 t4286.a2 t4286.t28))
% 32.29/32.49 (step t4286.t30 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4286.t12 t4286.t29))
% 32.29/32.49 (step t4286 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t4286.a0 t4286.a1 t4286.a2))
% 32.29/32.49 (step t4287 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4288 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.49 (step t4289 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and_pos)
% 32.29/32.49 (step t4290 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))))) :rule resolution :premises (t4286 t4287 t4288 t4289))
% 32.29/32.49 (step t4291 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t4290))
% 32.29/32.49 (step t4292 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t4291))
% 32.29/32.49 (step t4293 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4285 t4292))
% 32.29/32.49 (step t4294 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.29/32.49 (step t4295 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t4293 t4294))
% 32.29/32.49 (step t4296 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t4295))
% 32.29/32.49 (step t4297 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t4296))
% 32.29/32.49 (step t4298 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4284 t4297))
% 32.29/32.49 (step t4299 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule or_neg)
% 32.29/32.49 (step t4300 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.49 (step t4301 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))))) :rule or_neg)
% 32.29/32.49 (step t4302 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule or_neg)
% 32.29/32.49 (step t4303 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t4298 t4299 t4300 t4301 t4302))
% 32.29/32.49 (step t4304 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t4303))
% 32.29/32.49 (step t4305 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t4271 t4283 t4304))
% 32.29/32.49 (step t4306 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule or :premises (t4305))
% 32.29/32.49 (step t4307 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t4306))
% 32.29/32.49 (step t4308 (cl (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and :premises (t1360))
% 32.29/32.49 (step t4309 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4307 t4308 t798 t799))
% 32.29/32.49 (step t4310 (cl (not (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))))) (not (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.49 (step t4311 (cl (= (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true) (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.49 (step t4312 (cl (not (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule equiv1 :premises (t4311))
% 32.29/32.49 (step t4313 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))))) :rule all_simplify)
% 32.29/32.49 (step t4314 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule refl)
% 32.29/32.49 (step t4315 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule all_simplify)
% 32.29/32.49 (step t4316 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule cong :premises (t4314 t4315))
% 32.29/32.49 (step t4317 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) :rule all_simplify)
% 32.29/32.49 (step t4318 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) true)) :rule trans :premises (t4316 t4317))
% 32.29/32.49 (step t4319 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) true)) :rule trans :premises (t4313 t4318))
% 32.29/32.49 (step t4320 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4312 t4319))
% 32.29/32.49 (step t4321 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule refl)
% 32.29/32.49 (step t4322 (cl (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))))) :rule cong :premises (t1952 t1111 t4320 t4321))
% 32.29/32.49 (step t4323 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule and_neg)
% 32.29/32.49 (step t4324 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4325)
% 32.29/32.49 (assume t4325.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.49 (assume t4325.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.49 (assume t4325.a2 (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))
% 32.29/32.49 (step t4325.t1 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4325.t2)
% 32.29/32.49 (assume t4325.t2.a0 (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))
% 32.29/32.49 (assume t4325.t2.a1 (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))
% 32.29/32.49 (step t4325.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) false) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.49 (step t4325.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) false)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule equiv1 :premises (t4325.t2.t1))
% 32.29/32.49 (step t4325.t2.t3 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t4325.t2.a1))
% 32.29/32.49 (step t4325.t2.t4 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule symm :premises (t4325.t2.t3))
% 32.29/32.49 (step t4325.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule refl)
% 32.29/32.49 (step t4325.t2.t6 (cl (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule cong :premises (t4325.t2.t4 t4325.t2.t5))
% 32.29/32.49 (step t4325.t2.t7 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.49 (step t4325.t2.t8 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv2 :premises (t4325.t2.t7))
% 32.29/32.49 (step t4325.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule not_not)
% 32.29/32.49 (step t4325.t2.t10 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule resolution :premises (t4325.t2.t8 t4325.t2.t9))
% 32.29/32.49 (step t4325.t2.t11 (cl (= (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) false)) :rule resolution :premises (t4325.t2.t10 t4325.t2.a0))
% 32.29/32.49 (step t4325.t2.t12 (cl (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) false)) :rule trans :premises (t4325.t2.t6 t4325.t2.t11))
% 32.29/32.49 (step t4325.t2.t13 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4325.t2.t2 t4325.t2.t12))
% 32.29/32.49 (step t4325.t2 (cl (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t4325.t2.a0 t4325.t2.a1))
% 32.29/32.49 (step t4325.t3 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and_pos)
% 32.29/32.49 (step t4325.t4 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4325.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t4325.t2 t4325.t3 t4325.t4))
% 32.29/32.49 (step t4325.t6 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t4325.t5))
% 32.29/32.49 (step t4325.t7 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t4325.t6))
% 32.29/32.49 (step t4325.t8 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4325.t1 t4325.t7))
% 32.29/32.49 (step t4325.t9 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.29/32.49 (step t4325.t10 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t4325.t8 t4325.t9))
% 32.29/32.49 (step t4325.t11 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t4325.t10))
% 32.29/32.49 (step t4325.t12 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t4325.t11))
% 32.29/32.49 (step t4325.t13 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule and_neg)
% 32.29/32.49 (step t4325.t14 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4325.t15)
% 32.29/32.49 (assume t4325.t15.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.49 (assume t4325.t15.a1 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.49 (step t4325.t15.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t4325.t15.a1))
% 32.29/32.49 (step t4325.t15.t2 (cl (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule symm :premises (t4325.t15.t1))
% 32.29/32.49 (step t4325.t15.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t4325.t15.a0))
% 32.29/32.49 (step t4325.t15.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t4325.t15.t3))
% 32.29/32.49 (step t4325.t15.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t4325.t15.t4))
% 32.29/32.49 (step t4325.t15.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.49 (step t4325.t15.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule cong :premises (t4325.t15.t5 t4325.t15.t6))
% 32.29/32.49 (step t4325.t15.t8 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t4325.t15.t2 t4325.t15.t7))
% 32.29/32.49 (step t4325.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule subproof :discharge (t4325.t15.a0 t4325.t15.a1))
% 32.29/32.49 (step t4325.t16 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4325.t17 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4325.t18 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule resolution :premises (t4325.t15 t4325.t16 t4325.t17))
% 32.29/32.49 (step t4325.t19 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule reordering :premises (t4325.t18))
% 32.29/32.49 (step t4325.t20 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule contraction :premises (t4325.t19))
% 32.29/32.49 (step t4325.t21 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t4325.t14 t4325.t20))
% 32.29/32.49 (step t4325.t22 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg2)
% 32.29/32.49 (step t4325.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t4325.t21 t4325.t22))
% 32.29/32.49 (step t4325.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t4325.t23))
% 32.29/32.49 (step t4325.t25 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule implies :premises (t4325.t24))
% 32.29/32.49 (step t4325.t26 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule and_neg)
% 32.29/32.49 (step t4325.t27 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule resolution :premises (t4325.t26 t4325.a1 t4325.a0))
% 32.29/32.49 (step t4325.t28 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t4325.t25 t4325.t27))
% 32.29/32.49 (step t4325.t29 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t4325.t13 t4325.a2 t4325.t28))
% 32.29/32.49 (step t4325.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4325.t12 t4325.t29))
% 32.29/32.49 (step t4325 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t4325.a0 t4325.a1 t4325.a2))
% 32.29/32.49 (step t4326 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4327 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4328 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and_pos)
% 32.29/32.49 (step t4329 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))))) :rule resolution :premises (t4325 t4326 t4327 t4328))
% 32.29/32.49 (step t4330 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t4329))
% 32.29/32.49 (step t4331 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t4330))
% 32.29/32.49 (step t4332 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4324 t4331))
% 32.29/32.49 (step t4333 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.29/32.49 (step t4334 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t4332 t4333))
% 32.29/32.49 (step t4335 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t4334))
% 32.29/32.49 (step t4336 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t4335))
% 32.29/32.49 (step t4337 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4323 t4336))
% 32.29/32.49 (step t4338 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule or_neg)
% 32.29/32.49 (step t4339 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.49 (step t4340 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))))) :rule or_neg)
% 32.29/32.49 (step t4341 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule or_neg)
% 32.29/32.49 (step t4342 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t4337 t4338 t4339 t4340 t4341))
% 32.29/32.49 (step t4343 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t4342))
% 32.29/32.49 (step t4344 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t4310 t4322 t4343))
% 32.29/32.49 (step t4345 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule or :premises (t4344))
% 32.29/32.49 (step t4346 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule reordering :premises (t4345))
% 32.29/32.49 (step t4347 (cl (not (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e14)))) :rule and :premises (t1360))
% 32.29/32.49 (step t4348 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t4346 t4347 t767 t768))
% 32.29/32.49 (step t4349 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule resolution :premises (t4268 t4270 t4309 t1818 t4348))
% 32.29/32.49 (step t4350 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t4349))
% 32.29/32.49 (step t4351 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t2000))
% 32.29/32.49 (step t4352 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4353 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))))) :rule reordering :premises (t4352))
% 32.29/32.49 (step t4354 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4355 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))))) :rule reordering :premises (t4354))
% 32.29/32.49 (step t4356 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4357 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))))) :rule reordering :premises (t4356))
% 32.29/32.49 (step t4358 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4359 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule reordering :premises (t4358))
% 32.29/32.49 (step t4360 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4361 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))))) :rule reordering :premises (t4360))
% 32.29/32.49 (step t4362 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4363 (cl (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))))) :rule reordering :premises (t4362))
% 32.29/32.49 (step t4364 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4365 (cl (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))))) :rule reordering :premises (t4364))
% 32.29/32.49 (step t4366 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4367 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))))) :rule reordering :premises (t4366))
% 32.29/32.49 (step t4368 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4369 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))))) :rule reordering :premises (t4368))
% 32.29/32.49 (step t4370 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule resolution :premises (t4350 t4351 t3828 t3272 t4353 t4355 t4357 t4359 t4361 t4363 t4365 t4367 t4369))
% 32.29/32.49 (step t4371 (cl (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule contraction :premises (t4370))
% 32.29/32.49 (step t4372 (cl (or (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule and :premises (t1107))
% 32.29/32.49 (step t4373 (cl (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) :rule or :premises (t4372))
% 32.29/32.49 (step t4374 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.49 (step t4375 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4376)
% 32.29/32.49 (assume t4376.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4376.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4376.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4376.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.49 (assume t4376.a4 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.49 (assume t4376.a5 (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)))
% 32.29/32.49 (assume t4376.a6 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (assume t4376.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.49 (assume t4376.a8 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4376.a9 (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))
% 32.29/32.49 (assume t4376.a10 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4376.a11 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4376.a12 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4376.a13 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (step t4376.t1 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4376.t2)
% 32.29/32.49 (assume t4376.t2.a0 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.49 (assume t4376.t2.a1 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (assume t4376.t2.a2 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4376.t2.a3 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4376.t2.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4376.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4376.t2.a6 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4376.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.49 (assume t4376.t2.a8 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.49 (assume t4376.t2.a9 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4376.t2.a10 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4376.t2.a11 (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))
% 32.29/32.49 (assume t4376.t2.a12 (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)))
% 32.29/32.49 (assume t4376.t2.a13 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (step t4376.t2.t1 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4376.t2.a13))
% 32.29/32.49 (step t4376.t2.t2 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4376.t2.t1))
% 32.29/32.49 (step t4376.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.49 (step t4376.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.unit1 tptp.e10))) :rule cong :premises (t4376.t2.t2 t4376.t2.t3))
% 32.29/32.49 (step t4376.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e10) tptp.e10)) :rule symm :premises (t4376.t2.a12))
% 32.29/32.49 (step t4376.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10)) :rule trans :premises (t4376.t2.t4 t4376.t2.t5))
% 32.29/32.49 (step t4376.t2.t7 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.h2 tptp.e10))) :rule cong :premises (t4376.t2.t6))
% 32.29/32.49 (step t4376.t2.t8 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4376.t2.a4))
% 32.29/32.49 (step t4376.t2.t9 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4376.t2.t8))
% 32.29/32.49 (step t4376.t2.t10 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.49 (step t4376.t2.t11 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t4376.t2.t9 t4376.t2.t10))
% 32.29/32.49 (step t4376.t2.t12 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) :rule symm :premises (t4376.t2.t11))
% 32.29/32.49 (step t4376.t2.t13 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.49 (step t4376.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4376.t2.a5))
% 32.29/32.49 (step t4376.t2.t15 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t4376.t2.t13 t4376.t2.t14))
% 32.29/32.49 (step t4376.t2.t16 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4376.t2.t15))
% 32.29/32.49 (step t4376.t2.t17 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t4376.t2.a9))
% 32.29/32.49 (step t4376.t2.t18 (cl (= (tptp.op2 tptp.unit2 tptp.e23) tptp.e23)) :rule symm :premises (t4376.t2.a11))
% 32.29/32.49 (step t4376.t2.t19 (cl (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule symm :premises (t4376.t2.t18))
% 32.29/32.49 (step t4376.t2.t20 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4376.t2.a10))
% 32.29/32.49 (step t4376.t2.t21 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.49 (step t4376.t2.t22 (cl (= (tptp.op2 tptp.unit2 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) :rule cong :premises (t4376.t2.t20 t4376.t2.t21))
% 32.29/32.49 (step t4376.t2.t23 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t4376.t2.a7))
% 32.29/32.49 (step t4376.t2.t24 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t4376.t2.t23))
% 32.29/32.49 (step t4376.t2.t25 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4376.t2.a6))
% 32.29/32.49 (step t4376.t2.t26 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4376.t2.t25))
% 32.29/32.49 (step t4376.t2.t27 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4376.t2.t14 t4376.t2.t13))
% 32.29/32.49 (step t4376.t2.t28 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4376.t2.t9 t4376.t2.a3))
% 32.29/32.49 (step t4376.t2.t29 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4376.t2.a2 t4376.t2.t28))
% 32.29/32.49 (step t4376.t2.t30 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4376.t2.a2))
% 32.29/32.49 (step t4376.t2.t31 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4376.t2.a3))
% 32.29/32.49 (step t4376.t2.t32 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t4376.t2.t30 t4376.t2.t31))
% 32.29/32.49 (step t4376.t2.t33 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4376.t2.a1))
% 32.29/32.49 (step t4376.t2.t34 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4376.t2.t33))
% 32.29/32.49 (step t4376.t2.t35 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t4376.t2.t26 t4376.t2.t27 t4376.t2.t29 t4376.t2.t32 t4376.t2.t34))
% 32.29/32.49 (step t4376.t2.t36 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4376.t2.t34))
% 32.29/32.49 (step t4376.t2.t37 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t4376.t2.t35 t4376.t2.t36))
% 32.29/32.49 (step t4376.t2.t38 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t4376.t2.t37 t4376.t2.t10))
% 32.29/32.49 (step t4376.t2.t39 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t4376.t2.a0))
% 32.29/32.49 (step t4376.t2.t40 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t4376.t2.t24 t4376.t2.t38 t4376.t2.t39))
% 32.29/32.49 (step t4376.t2.t41 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4376.t2.t17))
% 32.29/32.49 (step t4376.t2.t42 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t4376.t2.a8))
% 32.29/32.49 (step t4376.t2.t43 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t4376.t2.t41 t4376.t2.t15 t4376.t2.t11 t4376.t2.t42))
% 32.29/32.49 (step t4376.t2.t44 (cl (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule cong :premises (t4376.t2.t40 t4376.t2.t43))
% 32.29/32.49 (step t4376.t2.t45 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule trans :premises (t4376.t2.t7 t4376.t2.a8 t4376.t2.t12 t4376.t2.t16 t4376.t2.t17 t4376.t2.t19 t4376.t2.t22 t4376.t2.t44))
% 32.29/32.49 (step t4376.t2 (cl (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t4376.t2.a0 t4376.t2.a1 t4376.t2.a2 t4376.t2.a3 t4376.t2.a4 t4376.t2.a5 t4376.t2.a6 t4376.t2.a7 t4376.t2.a8 t4376.t2.a9 t4376.t2.a10 t4376.t2.a11 t4376.t2.a12 t4376.t2.a13))
% 32.29/32.49 (step t4376.t3 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4376.t4 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4376.t5 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4376.t6 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4376.t7 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4376.t8 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4376.t9 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4376.t10 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4376.t11 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4376.t12 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4376.t13 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4376.t14 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule and_pos)
% 32.29/32.49 (step t4376.t15 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4376.t16 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4376.t17 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4376.t2 t4376.t3 t4376.t4 t4376.t5 t4376.t6 t4376.t7 t4376.t8 t4376.t9 t4376.t10 t4376.t11 t4376.t12 t4376.t13 t4376.t14 t4376.t15 t4376.t16))
% 32.29/32.49 (step t4376.t18 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule reordering :premises (t4376.t17))
% 32.29/32.49 (step t4376.t19 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule contraction :premises (t4376.t18))
% 32.29/32.49 (step t4376.t20 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule resolution :premises (t4376.t1 t4376.t19))
% 32.29/32.49 (step t4376.t21 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4376.t22 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))))) :rule resolution :premises (t4376.t20 t4376.t21))
% 32.29/32.49 (step t4376.t23 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))))) :rule contraction :premises (t4376.t22))
% 32.29/32.49 (step t4376.t24 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule implies :premises (t4376.t23))
% 32.29/32.49 (step t4376.t25 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.49 (step t4376.t26 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4376.t25 t4376.a4 t4376.a13 t4376.a11 t4376.a12 t4376.a8 t4376.a1 t4376.a0 t4376.a7 t4376.a3 t4376.a2 t4376.a10 t4376.a9 t4376.a5 t4376.a6))
% 32.29/32.49 (step t4376.t27 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule resolution :premises (t4376.t24 t4376.t26))
% 32.29/32.49 (step t4376 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule subproof :discharge (t4376.a0 t4376.a1 t4376.a2 t4376.a3 t4376.a4 t4376.a5 t4376.a6 t4376.a7 t4376.a8 t4376.a9 t4376.a10 t4376.a11 t4376.a12 t4376.a13))
% 32.29/32.49 (step t4377 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4378 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4379 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4380 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4381 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4382 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4383 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4384 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4385 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4386 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule and_pos)
% 32.29/32.49 (step t4387 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4388 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4389 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4390 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4391 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4376 t4377 t4378 t4379 t4380 t4381 t4382 t4383 t4384 t4385 t4386 t4387 t4388 t4389 t4390))
% 32.29/32.49 (step t4392 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule reordering :premises (t4391))
% 32.29/32.49 (step t4393 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule contraction :premises (t4392))
% 32.29/32.49 (step t4394 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule resolution :premises (t4375 t4393))
% 32.29/32.49 (step t4395 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4396 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))))) :rule resolution :premises (t4394 t4395))
% 32.29/32.49 (step t4397 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))))) :rule contraction :premises (t4396))
% 32.29/32.49 (step t4398 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule implies :premises (t4397))
% 32.29/32.49 (step t4399 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10)))) :rule resolution :premises (t4374 t4398))
% 32.29/32.49 (step t4400 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4399))
% 32.29/32.49 (step t4401 (cl (not (= (and (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20) (= (tptp.op2 tptp.unit2 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21) (= (tptp.op2 tptp.unit2 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22) (= (tptp.op2 tptp.unit2 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23) (= (tptp.op2 tptp.unit2 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24) (or (= tptp.unit2 tptp.e20) (= tptp.unit2 tptp.e21) (= tptp.unit2 tptp.e22) (= tptp.unit2 tptp.e23) (= tptp.unit2 tptp.e24))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 (tptp.op2 tptp.unit2 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (or (= tptp.e20 tptp.unit2) (= tptp.e21 tptp.unit2) (= tptp.e22 tptp.unit2) (= tptp.e23 tptp.unit2) (= tptp.e24 tptp.unit2))))) (not (and (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20) (= (tptp.op2 tptp.unit2 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21) (= (tptp.op2 tptp.unit2 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22) (= (tptp.op2 tptp.unit2 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23) (= (tptp.op2 tptp.unit2 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24) (or (= tptp.unit2 tptp.e20) (= tptp.unit2 tptp.e21) (= tptp.unit2 tptp.e22) (= tptp.unit2 tptp.e23) (= tptp.unit2 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 (tptp.op2 tptp.unit2 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (or (= tptp.e20 tptp.unit2) (= tptp.e21 tptp.unit2) (= tptp.e22 tptp.unit2) (= tptp.e23 tptp.unit2) (= tptp.e24 tptp.unit2)))) :rule equiv_pos2)
% 32.29/32.49 (step t4402 (cl (= (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))) :rule all_simplify)
% 32.29/32.49 (step t4403 (cl (= (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule all_simplify)
% 32.29/32.49 (step t4404 (cl (= (= (tptp.op2 tptp.unit2 tptp.e21) tptp.e21) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) :rule all_simplify)
% 32.29/32.49 (step t4405 (cl (= (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) :rule all_simplify)
% 32.29/32.49 (step t4406 (cl (= (= (tptp.op2 tptp.unit2 tptp.e22) tptp.e22) (= tptp.e22 (tptp.op2 tptp.unit2 tptp.e22)))) :rule all_simplify)
% 32.29/32.49 (step t4407 (cl (= (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule all_simplify)
% 32.29/32.49 (step t4408 (cl (= (= (tptp.op2 tptp.unit2 tptp.e23) tptp.e23) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) :rule all_simplify)
% 32.29/32.49 (step t4409 (cl (= (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule all_simplify)
% 32.29/32.49 (step t4410 (cl (= (= (tptp.op2 tptp.unit2 tptp.e24) tptp.e24) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) :rule all_simplify)
% 32.29/32.49 (step t4411 (cl (= (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule all_simplify)
% 32.29/32.49 (step t4412 (cl (= (= tptp.unit2 tptp.e20) (= tptp.e20 tptp.unit2))) :rule all_simplify)
% 32.29/32.49 (step t4413 (cl (= (= tptp.unit2 tptp.e21) (= tptp.e21 tptp.unit2))) :rule all_simplify)
% 32.29/32.49 (step t4414 (cl (= (= tptp.unit2 tptp.e22) (= tptp.e22 tptp.unit2))) :rule all_simplify)
% 32.29/32.49 (step t4415 (cl (= (= tptp.unit2 tptp.e23) (= tptp.e23 tptp.unit2))) :rule all_simplify)
% 32.29/32.49 (step t4416 (cl (= (= tptp.unit2 tptp.e24) (= tptp.e24 tptp.unit2))) :rule all_simplify)
% 32.29/32.49 (step t4417 (cl (= (or (= tptp.unit2 tptp.e20) (= tptp.unit2 tptp.e21) (= tptp.unit2 tptp.e22) (= tptp.unit2 tptp.e23) (= tptp.unit2 tptp.e24)) (or (= tptp.e20 tptp.unit2) (= tptp.e21 tptp.unit2) (= tptp.e22 tptp.unit2) (= tptp.e23 tptp.unit2) (= tptp.e24 tptp.unit2)))) :rule cong :premises (t4412 t4413 t4414 t4415 t4416))
% 32.29/32.49 (step t4418 (cl (= (and (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20) (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20) (= (tptp.op2 tptp.unit2 tptp.e21) tptp.e21) (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21) (= (tptp.op2 tptp.unit2 tptp.e22) tptp.e22) (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22) (= (tptp.op2 tptp.unit2 tptp.e23) tptp.e23) (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23) (= (tptp.op2 tptp.unit2 tptp.e24) tptp.e24) (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24) (or (= tptp.unit2 tptp.e20) (= tptp.unit2 tptp.e21) (= tptp.unit2 tptp.e22) (= tptp.unit2 tptp.e23) (= tptp.unit2 tptp.e24))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 (tptp.op2 tptp.unit2 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (or (= tptp.e20 tptp.unit2) (= tptp.e21 tptp.unit2) (= tptp.e22 tptp.unit2) (= tptp.e23 tptp.unit2) (= tptp.e24 tptp.unit2))))) :rule cong :premises (t4402 t4403 t4404 t4405 t4406 t4407 t4408 t4409 t4410 t4411 t4417))
% 32.29/32.49 (step t4419 (cl (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 (tptp.op2 tptp.unit2 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (or (= tptp.e20 tptp.unit2) (= tptp.e21 tptp.unit2) (= tptp.e22 tptp.unit2) (= tptp.e23 tptp.unit2) (= tptp.e24 tptp.unit2)))) :rule resolution :premises (t4401 t4418 a4))
% 32.29/32.49 (step t4420 (cl (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule and :premises (t4419))
% 32.29/32.49 (step t4421 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.29/32.49 (step t4422 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4423)
% 32.29/32.49 (assume t4423.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4423.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.49 (assume t4423.a2 (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)))
% 32.29/32.49 (assume t4423.a3 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (assume t4423.a4 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.29/32.49 (assume t4423.a5 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4423.a6 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.49 (assume t4423.a7 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.49 (step t4423.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4423.t2)
% 32.29/32.49 (assume t4423.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.49 (assume t4423.t2.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.49 (assume t4423.t2.a2 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.49 (assume t4423.t2.a3 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4423.t2.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4423.t2.a5 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.29/32.49 (assume t4423.t2.a6 (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)))
% 32.29/32.49 (assume t4423.t2.a7 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (step t4423.t2.t1 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4423.t2.a7))
% 32.29/32.49 (step t4423.t2.t2 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4423.t2.t1))
% 32.29/32.49 (step t4423.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.49 (step t4423.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.unit1 tptp.e10))) :rule cong :premises (t4423.t2.t2 t4423.t2.t3))
% 32.29/32.49 (step t4423.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e10) tptp.e10)) :rule symm :premises (t4423.t2.a6))
% 32.29/32.49 (step t4423.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e10) tptp.e10)) :rule trans :premises (t4423.t2.t4 t4423.t2.t5))
% 32.29/32.49 (step t4423.t2.t7 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.h5 tptp.e10))) :rule cong :premises (t4423.t2.t6))
% 32.29/32.49 (step t4423.t2.t8 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4423.t2.a2))
% 32.29/32.49 (step t4423.t2.t9 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4423.t2.a3))
% 32.29/32.49 (step t4423.t2.t10 (cl (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20)) :rule symm :premises (t4423.t2.a5))
% 32.29/32.49 (step t4423.t2.t11 (cl (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule symm :premises (t4423.t2.t10))
% 32.29/32.49 (step t4423.t2.t12 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4423.t2.a4))
% 32.29/32.49 (step t4423.t2.t13 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.49 (step t4423.t2.t14 (cl (= (tptp.op2 tptp.unit2 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule cong :premises (t4423.t2.t12 t4423.t2.t13))
% 32.29/32.49 (step t4423.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t4423.t2.a1))
% 32.29/32.49 (step t4423.t2.t16 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4423.t2.t15))
% 32.29/32.49 (step t4423.t2.t17 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4423.t2.a0))
% 32.29/32.49 (step t4423.t2.t18 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t4423.t2.t17))
% 32.29/32.49 (step t4423.t2.t19 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t4423.t2.t16 t4423.t2.t18))
% 32.29/32.49 (step t4423.t2.t20 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4423.t2.t9))
% 32.29/32.49 (step t4423.t2.t21 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t4423.t2.t8))
% 32.29/32.49 (step t4423.t2.t22 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t4423.t2.t20 t4423.t2.t21))
% 32.29/32.49 (step t4423.t2.t23 (cl (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule cong :premises (t4423.t2.t19 t4423.t2.t22))
% 32.29/32.49 (step t4423.t2.t24 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule trans :premises (t4423.t2.t7 t4423.t2.t8 t4423.t2.t9 t4423.t2.t11 t4423.t2.t14 t4423.t2.t23))
% 32.29/32.49 (step t4423.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t4423.t2.a0 t4423.t2.a1 t4423.t2.a2 t4423.t2.a3 t4423.t2.a4 t4423.t2.a5 t4423.t2.a6 t4423.t2.a7))
% 32.29/32.49 (step t4423.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4423.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4423.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4423.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4423.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4423.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.29/32.49 (step t4423.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4423.t10 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4423.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4423.t2 t4423.t3 t4423.t4 t4423.t5 t4423.t6 t4423.t7 t4423.t8 t4423.t9 t4423.t10))
% 32.29/32.49 (step t4423.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule reordering :premises (t4423.t11))
% 32.29/32.49 (step t4423.t13 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule contraction :premises (t4423.t12))
% 32.29/32.49 (step t4423.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule resolution :premises (t4423.t1 t4423.t13))
% 32.29/32.49 (step t4423.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4423.t16 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))))) :rule resolution :premises (t4423.t14 t4423.t15))
% 32.29/32.49 (step t4423.t17 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))))) :rule contraction :premises (t4423.t16))
% 32.29/32.49 (step t4423.t18 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule implies :premises (t4423.t17))
% 32.29/32.49 (step t4423.t19 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.49 (step t4423.t20 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4423.t19 t4423.a7 t4423.a1 t4423.a6 t4423.a0 t4423.a5 t4423.a4 t4423.a2 t4423.a3))
% 32.29/32.49 (step t4423.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule resolution :premises (t4423.t18 t4423.t20))
% 32.29/32.49 (step t4423 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule subproof :discharge (t4423.a0 t4423.a1 t4423.a2 t4423.a3 t4423.a4 t4423.a5 t4423.a6 t4423.a7))
% 32.29/32.49 (step t4424 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4425 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4426 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4427 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4428 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.29/32.49 (step t4429 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4430 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.49 (step t4431 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4432 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4423 t4424 t4425 t4426 t4427 t4428 t4429 t4430 t4431))
% 32.29/32.49 (step t4433 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule reordering :premises (t4432))
% 32.29/32.49 (step t4434 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule contraction :premises (t4433))
% 32.29/32.49 (step t4435 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule resolution :premises (t4422 t4434))
% 32.29/32.49 (step t4436 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))))) :rule implies_neg2)
% 32.29/32.49 (step t4437 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))))) :rule resolution :premises (t4435 t4436))
% 32.29/32.49 (step t4438 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))))) :rule contraction :premises (t4437))
% 32.29/32.49 (step t4439 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule implies :premises (t4438))
% 32.29/32.49 (step t4440 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10)))) :rule resolution :premises (t4421 t4439))
% 32.29/32.49 (step t4441 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.unit1 tptp.e10))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4440))
% 32.29/32.49 (step t4442 (cl (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and :premises (t4419))
% 32.29/32.49 (step t4443 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.49 (step t4444 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4445)
% 32.29/32.49 (assume t4445.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4445.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4445.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.49 (assume t4445.a3 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.49 (assume t4445.a4 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (assume t4445.a5 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.49 (assume t4445.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4445.a7 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.29/32.49 (assume t4445.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4445.a9 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4445.a10 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4445.a11 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (step t4445.t1 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4445.t2)
% 32.29/32.49 (assume t4445.t2.a0 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.49 (assume t4445.t2.a1 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (assume t4445.t2.a2 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4445.t2.a3 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4445.t2.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4445.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4445.t2.a6 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4445.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.49 (assume t4445.t2.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4445.t2.a9 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.29/32.49 (assume t4445.t2.a10 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.49 (assume t4445.t2.a11 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (step t4445.t2.t1 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4445.t2.a11))
% 32.29/32.49 (step t4445.t2.t2 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4445.t2.t1))
% 32.29/32.49 (step t4445.t2.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.49 (step t4445.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.unit1 tptp.e13))) :rule cong :premises (t4445.t2.t2 t4445.t2.t3))
% 32.29/32.49 (step t4445.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13)) :rule symm :premises (t4445.t2.a10))
% 32.29/32.49 (step t4445.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13)) :rule trans :premises (t4445.t2.t4 t4445.t2.t5))
% 32.29/32.49 (step t4445.t2.t7 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.h2 tptp.e13))) :rule cong :premises (t4445.t2.t6))
% 32.29/32.49 (step t4445.t2.t8 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4445.t2.a1))
% 32.29/32.49 (step t4445.t2.t9 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4445.t2.a2))
% 32.29/32.49 (step t4445.t2.t10 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4445.t2.a3))
% 32.29/32.49 (step t4445.t2.t11 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t4445.t2.t9 t4445.t2.t10))
% 32.29/32.49 (step t4445.t2.t12 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule symm :premises (t4445.t2.t11))
% 32.29/32.49 (step t4445.t2.t13 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4445.t2.a4))
% 32.29/32.49 (step t4445.t2.t14 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4445.t2.t13))
% 32.29/32.49 (step t4445.t2.t15 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4445.t2.t14 t4445.t2.a3))
% 32.29/32.49 (step t4445.t2.t16 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4445.t2.a2 t4445.t2.t15))
% 32.29/32.49 (step t4445.t2.t17 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 tptp.e24))) :rule symm :premises (t4445.t2.t16))
% 32.29/32.49 (step t4445.t2.t18 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4445.t2.a5))
% 32.29/32.49 (step t4445.t2.t19 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.49 (step t4445.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4445.t2.t18 t4445.t2.t19))
% 32.29/32.49 (step t4445.t2.t21 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4445.t2.t20))
% 32.29/32.49 (step t4445.t2.t22 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4445.t2.a6))
% 32.29/32.49 (step t4445.t2.t23 (cl (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20)) :rule symm :premises (t4445.t2.a9))
% 32.29/32.49 (step t4445.t2.t24 (cl (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule symm :premises (t4445.t2.t23))
% 32.29/32.49 (step t4445.t2.t25 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4445.t2.a8))
% 32.29/32.49 (step t4445.t2.t26 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.49 (step t4445.t2.t27 (cl (= (tptp.op2 tptp.unit2 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule cong :premises (t4445.t2.t25 t4445.t2.t26))
% 32.29/32.49 (step t4445.t2.t28 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t4445.t2.a7))
% 32.29/32.49 (step t4445.t2.t29 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t4445.t2.t28))
% 32.29/32.49 (step t4445.t2.t30 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4445.t2.t22))
% 32.29/32.49 (step t4445.t2.t31 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4445.t2.t8))
% 32.29/32.49 (step t4445.t2.t32 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t4445.t2.t30 t4445.t2.t20 t4445.t2.t16 t4445.t2.t11 t4445.t2.t31))
% 32.29/32.49 (step t4445.t2.t33 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t4445.t2.t32 t4445.t2.t8))
% 32.29/32.49 (step t4445.t2.t34 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.49 (step t4445.t2.t35 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t4445.t2.t33 t4445.t2.t34))
% 32.29/32.49 (step t4445.t2.t36 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t4445.t2.a0))
% 32.29/32.49 (step t4445.t2.t37 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t4445.t2.t29 t4445.t2.t35 t4445.t2.t36))
% 32.29/32.49 (step t4445.t2.t38 (cl (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule cong :premises (t4445.t2.t37 t4445.t2.t32))
% 32.29/32.49 (step t4445.t2.t39 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule trans :premises (t4445.t2.t7 t4445.t2.t8 t4445.t2.t12 t4445.t2.t17 t4445.t2.t21 t4445.t2.t22 t4445.t2.t24 t4445.t2.t27 t4445.t2.t38))
% 32.29/32.49 (step t4445.t2 (cl (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t4445.t2.a0 t4445.t2.a1 t4445.t2.a2 t4445.t2.a3 t4445.t2.a4 t4445.t2.a5 t4445.t2.a6 t4445.t2.a7 t4445.t2.a8 t4445.t2.a9 t4445.t2.a10 t4445.t2.a11))
% 32.29/32.49 (step t4445.t3 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4445.t4 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4445.t5 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4445.t6 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4445.t7 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4445.t8 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4445.t9 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4445.t10 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4445.t11 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4445.t12 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.29/32.49 (step t4445.t13 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4445.t14 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4445.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4445.t2 t4445.t3 t4445.t4 t4445.t5 t4445.t6 t4445.t7 t4445.t8 t4445.t9 t4445.t10 t4445.t11 t4445.t12 t4445.t13 t4445.t14))
% 32.29/32.49 (step t4445.t16 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4445.t15))
% 32.29/32.49 (step t4445.t17 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule contraction :premises (t4445.t16))
% 32.29/32.49 (step t4445.t18 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule resolution :premises (t4445.t1 t4445.t17))
% 32.29/32.49 (step t4445.t19 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.29/32.49 (step t4445.t20 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4445.t18 t4445.t19))
% 32.29/32.49 (step t4445.t21 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))))) :rule contraction :premises (t4445.t20))
% 32.29/32.49 (step t4445.t22 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule implies :premises (t4445.t21))
% 32.29/32.49 (step t4445.t23 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.49 (step t4445.t24 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4445.t23 t4445.a2 t4445.a11 t4445.a9 t4445.a10 t4445.a6 t4445.a1 t4445.a0 t4445.a5 t4445.a8 t4445.a7 t4445.a3 t4445.a4))
% 32.29/32.49 (step t4445.t25 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule resolution :premises (t4445.t22 t4445.t24))
% 32.29/32.49 (step t4445 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule subproof :discharge (t4445.a0 t4445.a1 t4445.a2 t4445.a3 t4445.a4 t4445.a5 t4445.a6 t4445.a7 t4445.a8 t4445.a9 t4445.a10 t4445.a11))
% 32.29/32.49 (step t4446 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4447 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4448 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4449 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4450 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4451 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4452 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4453 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.29/32.49 (step t4454 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4455 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4456 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4457 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4458 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4445 t4446 t4447 t4448 t4449 t4450 t4451 t4452 t4453 t4454 t4455 t4456 t4457))
% 32.29/32.49 (step t4459 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4458))
% 32.29/32.49 (step t4460 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule contraction :premises (t4459))
% 32.29/32.49 (step t4461 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule resolution :premises (t4444 t4460))
% 32.29/32.49 (step t4462 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))))) :rule implies_neg2)
% 32.29/32.49 (step t4463 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4461 t4462))
% 32.29/32.49 (step t4464 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))))) :rule contraction :premises (t4463))
% 32.29/32.49 (step t4465 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule implies :premises (t4464))
% 32.29/32.49 (step t4466 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13)))) :rule resolution :premises (t4443 t4465))
% 32.29/32.49 (step t4467 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4466))
% 32.29/32.49 (step t4468 (cl (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and :premises (t1380))
% 32.29/32.49 (step t4469 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.29/32.49 (step t4470 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4471)
% 32.29/32.49 (assume t4471.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.49 (assume t4471.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4471.a2 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.49 (assume t4471.a3 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (assume t4471.a4 (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))
% 32.29/32.49 (assume t4471.a5 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4471.a6 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.49 (assume t4471.a7 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.49 (step t4471.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4471.t2)
% 32.29/32.49 (assume t4471.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.49 (assume t4471.t2.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.49 (assume t4471.t2.a2 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.49 (assume t4471.t2.a3 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.49 (assume t4471.t2.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4471.t2.a5 (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))
% 32.29/32.49 (assume t4471.t2.a6 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.49 (assume t4471.t2.a7 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (step t4471.t2.t1 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4471.t2.a7))
% 32.29/32.49 (step t4471.t2.t2 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4471.t2.t1))
% 32.29/32.49 (step t4471.t2.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.49 (step t4471.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.unit1 tptp.e13))) :rule cong :premises (t4471.t2.t2 t4471.t2.t3))
% 32.29/32.49 (step t4471.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13)) :rule symm :premises (t4471.t2.a6))
% 32.29/32.49 (step t4471.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e13) tptp.e13)) :rule trans :premises (t4471.t2.t4 t4471.t2.t5))
% 32.29/32.49 (step t4471.t2.t7 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.h5 tptp.e13))) :rule cong :premises (t4471.t2.t6))
% 32.29/32.49 (step t4471.t2.t8 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4471.t2.a2))
% 32.29/32.49 (step t4471.t2.t9 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t4471.t2.a3))
% 32.29/32.49 (step t4471.t2.t10 (cl (= (tptp.op2 tptp.unit2 tptp.e23) tptp.e23)) :rule symm :premises (t4471.t2.a5))
% 32.29/32.49 (step t4471.t2.t11 (cl (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule symm :premises (t4471.t2.t10))
% 32.29/32.49 (step t4471.t2.t12 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4471.t2.a4))
% 32.29/32.49 (step t4471.t2.t13 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.49 (step t4471.t2.t14 (cl (= (tptp.op2 tptp.unit2 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) :rule cong :premises (t4471.t2.t12 t4471.t2.t13))
% 32.29/32.49 (step t4471.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t4471.t2.a1))
% 32.29/32.49 (step t4471.t2.t16 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4471.t2.t15))
% 32.29/32.49 (step t4471.t2.t17 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4471.t2.a0))
% 32.29/32.49 (step t4471.t2.t18 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t4471.t2.t17))
% 32.29/32.49 (step t4471.t2.t19 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t4471.t2.t16 t4471.t2.t18))
% 32.29/32.49 (step t4471.t2.t20 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4471.t2.t9))
% 32.29/32.49 (step t4471.t2.t21 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t4471.t2.t8))
% 32.29/32.49 (step t4471.t2.t22 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t4471.t2.t20 t4471.t2.t21))
% 32.29/32.49 (step t4471.t2.t23 (cl (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule cong :premises (t4471.t2.t19 t4471.t2.t22))
% 32.29/32.49 (step t4471.t2.t24 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule trans :premises (t4471.t2.t7 t4471.t2.t8 t4471.t2.t9 t4471.t2.t11 t4471.t2.t14 t4471.t2.t23))
% 32.29/32.49 (step t4471.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t4471.t2.a0 t4471.t2.a1 t4471.t2.a2 t4471.t2.a3 t4471.t2.a4 t4471.t2.a5 t4471.t2.a6 t4471.t2.a7))
% 32.29/32.49 (step t4471.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4471.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4471.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4471.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4471.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4471.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule and_pos)
% 32.29/32.49 (step t4471.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4471.t10 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4471.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4471.t2 t4471.t3 t4471.t4 t4471.t5 t4471.t6 t4471.t7 t4471.t8 t4471.t9 t4471.t10))
% 32.29/32.49 (step t4471.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule reordering :premises (t4471.t11))
% 32.29/32.49 (step t4471.t13 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule contraction :premises (t4471.t12))
% 32.29/32.49 (step t4471.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule resolution :premises (t4471.t1 t4471.t13))
% 32.29/32.49 (step t4471.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.29/32.49 (step t4471.t16 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))))) :rule resolution :premises (t4471.t14 t4471.t15))
% 32.29/32.49 (step t4471.t17 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))))) :rule contraction :premises (t4471.t16))
% 32.29/32.49 (step t4471.t18 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule implies :premises (t4471.t17))
% 32.29/32.49 (step t4471.t19 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.49 (step t4471.t20 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4471.t19 t4471.a6 t4471.a0 t4471.a7 t4471.a1 t4471.a5 t4471.a4 t4471.a2 t4471.a3))
% 32.29/32.49 (step t4471.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule resolution :premises (t4471.t18 t4471.t20))
% 32.29/32.49 (step t4471 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule subproof :discharge (t4471.a0 t4471.a1 t4471.a2 t4471.a3 t4471.a4 t4471.a5 t4471.a6 t4471.a7))
% 32.29/32.49 (step t4472 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4473 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.49 (step t4474 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4475 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4476 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule and_pos)
% 32.29/32.49 (step t4477 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4478 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4479 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4480 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t4471 t4472 t4473 t4474 t4475 t4476 t4477 t4478 t4479))
% 32.29/32.49 (step t4481 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule reordering :premises (t4480))
% 32.29/32.49 (step t4482 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule contraction :premises (t4481))
% 32.29/32.49 (step t4483 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule resolution :premises (t4470 t4482))
% 32.29/32.49 (step t4484 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))))) :rule implies_neg2)
% 32.29/32.49 (step t4485 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))))) :rule resolution :premises (t4483 t4484))
% 32.29/32.49 (step t4486 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))))) :rule contraction :premises (t4485))
% 32.29/32.49 (step t4487 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule implies :premises (t4486))
% 32.29/32.49 (step t4488 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13)))) :rule resolution :premises (t4469 t4487))
% 32.29/32.49 (step t4489 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t4488))
% 32.29/32.49 (step t4490 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.49 (step t4491 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4492)
% 32.29/32.49 (assume t4492.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4492.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4492.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.49 (assume t4492.a3 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.49 (assume t4492.a4 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (assume t4492.a5 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.49 (assume t4492.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4492.a7 (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))
% 32.29/32.49 (assume t4492.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4492.a9 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4492.a10 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4492.a11 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (step t4492.t1 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4492.t2)
% 32.29/32.49 (assume t4492.t2.a0 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.49 (assume t4492.t2.a1 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (assume t4492.t2.a2 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4492.t2.a3 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4492.t2.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4492.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4492.t2.a6 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4492.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.49 (assume t4492.t2.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4492.t2.a9 (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))
% 32.29/32.49 (assume t4492.t2.a10 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.49 (assume t4492.t2.a11 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (step t4492.t2.t1 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4492.t2.a11))
% 32.29/32.49 (step t4492.t2.t2 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4492.t2.t1))
% 32.29/32.49 (step t4492.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.49 (step t4492.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.unit1 tptp.e14))) :rule cong :premises (t4492.t2.t2 t4492.t2.t3))
% 32.29/32.49 (step t4492.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14)) :rule symm :premises (t4492.t2.a10))
% 32.29/32.49 (step t4492.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) :rule trans :premises (t4492.t2.t4 t4492.t2.t5))
% 32.29/32.49 (step t4492.t2.t7 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.h2 tptp.e14))) :rule cong :premises (t4492.t2.t6))
% 32.29/32.49 (step t4492.t2.t8 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4492.t2.a2))
% 32.29/32.49 (step t4492.t2.t9 (cl (= (tptp.op2 tptp.unit2 tptp.e21) tptp.e21)) :rule symm :premises (t4492.t2.a9))
% 32.29/32.49 (step t4492.t2.t10 (cl (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule symm :premises (t4492.t2.t9))
% 32.29/32.49 (step t4492.t2.t11 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4492.t2.a8))
% 32.29/32.49 (step t4492.t2.t12 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.49 (step t4492.t2.t13 (cl (= (tptp.op2 tptp.unit2 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) :rule cong :premises (t4492.t2.t11 t4492.t2.t12))
% 32.29/32.49 (step t4492.t2.t14 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t4492.t2.a7))
% 32.29/32.49 (step t4492.t2.t15 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t4492.t2.t14))
% 32.29/32.49 (step t4492.t2.t16 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4492.t2.a6))
% 32.29/32.49 (step t4492.t2.t17 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4492.t2.t16))
% 32.29/32.49 (step t4492.t2.t18 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4492.t2.a5))
% 32.29/32.49 (step t4492.t2.t19 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.49 (step t4492.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4492.t2.t18 t4492.t2.t19))
% 32.29/32.49 (step t4492.t2.t21 (cl (= tptp.e21 (tptp.h2 tptp.e14))) :rule symm :premises (t4492.t2.t8))
% 32.29/32.49 (step t4492.t2.t22 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4492.t2.a4))
% 32.29/32.49 (step t4492.t2.t23 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4492.t2.t22))
% 32.29/32.49 (step t4492.t2.t24 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4492.t2.t23 t4492.t2.a3))
% 32.29/32.49 (step t4492.t2.t25 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4492.t2.t21 t4492.t2.t24))
% 32.29/32.49 (step t4492.t2.t26 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4492.t2.a3))
% 32.29/32.49 (step t4492.t2.t27 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t4492.t2.t8 t4492.t2.t26))
% 32.29/32.49 (step t4492.t2.t28 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4492.t2.a1))
% 32.29/32.49 (step t4492.t2.t29 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4492.t2.t28))
% 32.29/32.49 (step t4492.t2.t30 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t4492.t2.t17 t4492.t2.t20 t4492.t2.t25 t4492.t2.t27 t4492.t2.t29))
% 32.29/32.49 (step t4492.t2.t31 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4492.t2.t29))
% 32.29/32.49 (step t4492.t2.t32 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t4492.t2.t30 t4492.t2.t31))
% 32.29/32.49 (step t4492.t2.t33 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t4492.t2.t32 t4492.t2.t12))
% 32.29/32.49 (step t4492.t2.t34 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t4492.t2.a0))
% 32.29/32.49 (step t4492.t2.t35 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t4492.t2.t15 t4492.t2.t33 t4492.t2.t34))
% 32.29/32.49 (step t4492.t2.t36 (cl (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule cong :premises (t4492.t2.t35 t4492.t2.t21))
% 32.29/32.49 (step t4492.t2.t37 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule trans :premises (t4492.t2.t7 t4492.t2.t8 t4492.t2.t10 t4492.t2.t13 t4492.t2.t36))
% 32.29/32.49 (step t4492.t2 (cl (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t4492.t2.a0 t4492.t2.a1 t4492.t2.a2 t4492.t2.a3 t4492.t2.a4 t4492.t2.a5 t4492.t2.a6 t4492.t2.a7 t4492.t2.a8 t4492.t2.a9 t4492.t2.a10 t4492.t2.a11))
% 32.29/32.49 (step t4492.t3 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4492.t4 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4492.t5 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4492.t6 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4492.t7 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4492.t8 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4492.t9 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4492.t10 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4492.t11 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4492.t12 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4492.t13 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4492.t14 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4492.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4492.t2 t4492.t3 t4492.t4 t4492.t5 t4492.t6 t4492.t7 t4492.t8 t4492.t9 t4492.t10 t4492.t11 t4492.t12 t4492.t13 t4492.t14))
% 32.29/32.49 (step t4492.t16 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule reordering :premises (t4492.t15))
% 32.29/32.49 (step t4492.t17 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule contraction :premises (t4492.t16))
% 32.29/32.49 (step t4492.t18 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule resolution :premises (t4492.t1 t4492.t17))
% 32.29/32.49 (step t4492.t19 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.29/32.49 (step t4492.t20 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))))) :rule resolution :premises (t4492.t18 t4492.t19))
% 32.29/32.49 (step t4492.t21 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))))) :rule contraction :premises (t4492.t20))
% 32.29/32.49 (step t4492.t22 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule implies :premises (t4492.t21))
% 32.29/32.49 (step t4492.t23 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.49 (step t4492.t24 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4492.t23 t4492.a2 t4492.a11 t4492.a9 t4492.a10 t4492.a6 t4492.a1 t4492.a0 t4492.a5 t4492.a8 t4492.a7 t4492.a3 t4492.a4))
% 32.29/32.49 (step t4492.t25 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule resolution :premises (t4492.t22 t4492.t24))
% 32.29/32.49 (step t4492 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule subproof :discharge (t4492.a0 t4492.a1 t4492.a2 t4492.a3 t4492.a4 t4492.a5 t4492.a6 t4492.a7 t4492.a8 t4492.a9 t4492.a10 t4492.a11))
% 32.29/32.49 (step t4493 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4494 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4495 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4496 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4497 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4498 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4499 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4500 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4501 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4502 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4503 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4504 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4505 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4492 t4493 t4494 t4495 t4496 t4497 t4498 t4499 t4500 t4501 t4502 t4503 t4504))
% 32.29/32.49 (step t4506 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule reordering :premises (t4505))
% 32.29/32.49 (step t4507 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule contraction :premises (t4506))
% 32.29/32.49 (step t4508 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule resolution :premises (t4491 t4507))
% 32.29/32.49 (step t4509 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))))) :rule implies_neg2)
% 32.29/32.49 (step t4510 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))))) :rule resolution :premises (t4508 t4509))
% 32.29/32.49 (step t4511 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))))) :rule contraction :premises (t4510))
% 32.29/32.49 (step t4512 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule implies :premises (t4511))
% 32.29/32.49 (step t4513 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14)))) :rule resolution :premises (t4490 t4512))
% 32.29/32.49 (step t4514 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4513))
% 32.29/32.49 (step t4515 (cl (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule and :premises (t4419))
% 32.29/32.49 (step t4516 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.29/32.49 (step t4517 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4518)
% 32.29/32.49 (assume t4518.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.49 (assume t4518.a1 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.49 (assume t4518.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (assume t4518.a3 (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))
% 32.29/32.49 (assume t4518.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4518.a5 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.49 (assume t4518.a6 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.49 (step t4518.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4518.t2)
% 32.29/32.49 (assume t4518.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.49 (assume t4518.t2.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.49 (assume t4518.t2.a2 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.49 (assume t4518.t2.a3 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4518.t2.a4 (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))
% 32.29/32.49 (assume t4518.t2.a5 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.49 (assume t4518.t2.a6 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (step t4518.t2.t1 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4518.t2.a6))
% 32.29/32.49 (step t4518.t2.t2 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4518.t2.t1))
% 32.29/32.49 (step t4518.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.49 (step t4518.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e14) (tptp.op1 tptp.unit1 tptp.e14))) :rule cong :premises (t4518.t2.t2 t4518.t2.t3))
% 32.29/32.49 (step t4518.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14)) :rule symm :premises (t4518.t2.a5))
% 32.29/32.49 (step t4518.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e14) tptp.e14)) :rule trans :premises (t4518.t2.t4 t4518.t2.t5))
% 32.29/32.49 (step t4518.t2.t7 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.h5 tptp.e14))) :rule cong :premises (t4518.t2.t6))
% 32.29/32.49 (step t4518.t2.t8 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t4518.t2.a2))
% 32.29/32.49 (step t4518.t2.t9 (cl (= (tptp.op2 tptp.unit2 tptp.e24) tptp.e24)) :rule symm :premises (t4518.t2.a4))
% 32.29/32.49 (step t4518.t2.t10 (cl (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule symm :premises (t4518.t2.t9))
% 32.29/32.49 (step t4518.t2.t11 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4518.t2.a3))
% 32.29/32.49 (step t4518.t2.t12 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.49 (step t4518.t2.t13 (cl (= (tptp.op2 tptp.unit2 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule cong :premises (t4518.t2.t11 t4518.t2.t12))
% 32.29/32.49 (step t4518.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t4518.t2.a1))
% 32.29/32.49 (step t4518.t2.t15 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4518.t2.t14))
% 32.29/32.49 (step t4518.t2.t16 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4518.t2.a0))
% 32.29/32.49 (step t4518.t2.t17 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t4518.t2.t16))
% 32.29/32.49 (step t4518.t2.t18 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t4518.t2.t15 t4518.t2.t17))
% 32.29/32.49 (step t4518.t2.t19 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule symm :premises (t4518.t2.t8))
% 32.29/32.49 (step t4518.t2.t20 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule cong :premises (t4518.t2.t18 t4518.t2.t19))
% 32.29/32.49 (step t4518.t2.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule trans :premises (t4518.t2.t7 t4518.t2.t8 t4518.t2.t10 t4518.t2.t13 t4518.t2.t20))
% 32.29/32.49 (step t4518.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t4518.t2.a0 t4518.t2.a1 t4518.t2.a2 t4518.t2.a3 t4518.t2.a4 t4518.t2.a5 t4518.t2.a6))
% 32.29/32.49 (step t4518.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4518.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4518.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4518.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4518.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4518.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4518.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4518.t10 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4518.t2 t4518.t3 t4518.t4 t4518.t5 t4518.t6 t4518.t7 t4518.t8 t4518.t9))
% 32.29/32.49 (step t4518.t11 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule reordering :premises (t4518.t10))
% 32.29/32.49 (step t4518.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule contraction :premises (t4518.t11))
% 32.29/32.49 (step t4518.t13 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule resolution :premises (t4518.t1 t4518.t12))
% 32.29/32.49 (step t4518.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.29/32.49 (step t4518.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))))) :rule resolution :premises (t4518.t13 t4518.t14))
% 32.29/32.49 (step t4518.t16 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))))) :rule contraction :premises (t4518.t15))
% 32.29/32.49 (step t4518.t17 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule implies :premises (t4518.t16))
% 32.29/32.49 (step t4518.t18 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.49 (step t4518.t19 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e24 (tptp.h5 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4518.t18 t4518.a6 t4518.a0 t4518.a5 t4518.a4 t4518.a3 t4518.a1 t4518.a2))
% 32.29/32.49 (step t4518.t20 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule resolution :premises (t4518.t17 t4518.t19))
% 32.29/32.49 (step t4518 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule subproof :discharge (t4518.a0 t4518.a1 t4518.a2 t4518.a3 t4518.a4 t4518.a5 t4518.a6))
% 32.29/32.49 (step t4519 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4520 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4521 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4522 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4523 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4524 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4525 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.49 (step t4526 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4518 t4519 t4520 t4521 t4522 t4523 t4524 t4525))
% 32.29/32.49 (step t4527 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule reordering :premises (t4526))
% 32.29/32.49 (step t4528 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule contraction :premises (t4527))
% 32.29/32.49 (step t4529 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule resolution :premises (t4517 t4528))
% 32.29/32.49 (step t4530 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))))) :rule implies_neg2)
% 32.29/32.49 (step t4531 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))))) :rule resolution :premises (t4529 t4530))
% 32.29/32.49 (step t4532 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))))) :rule contraction :premises (t4531))
% 32.29/32.49 (step t4533 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule implies :premises (t4532))
% 32.29/32.49 (step t4534 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14)))) :rule resolution :premises (t4516 t4533))
% 32.29/32.49 (step t4535 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4534))
% 32.29/32.49 (step t4536 (cl (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule and :premises (t4419))
% 32.29/32.49 (step t4537 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.49 (step t4538 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4539)
% 32.29/32.49 (assume t4539.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4539.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4539.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.49 (assume t4539.a3 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.49 (assume t4539.a4 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (assume t4539.a5 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.49 (assume t4539.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4539.a7 (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))
% 32.29/32.49 (assume t4539.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4539.a9 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4539.a10 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4539.a11 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (step t4539.t1 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.49 (anchor :step t4539.t2)
% 32.29/32.49 (assume t4539.t2.a0 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.49 (assume t4539.t2.a1 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.49 (assume t4539.t2.a2 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.49 (assume t4539.t2.a3 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.49 (assume t4539.t2.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.49 (assume t4539.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.49 (assume t4539.t2.a6 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.49 (assume t4539.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.49 (assume t4539.t2.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.49 (assume t4539.t2.a9 (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))
% 32.29/32.49 (assume t4539.t2.a10 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.49 (assume t4539.t2.a11 (= tptp.e12 tptp.unit1))
% 32.29/32.49 (step t4539.t2.t1 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4539.t2.a11))
% 32.29/32.49 (step t4539.t2.t2 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4539.t2.t1))
% 32.29/32.49 (step t4539.t2.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.49 (step t4539.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.unit1 tptp.e11))) :rule cong :premises (t4539.t2.t2 t4539.t2.t3))
% 32.29/32.49 (step t4539.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11)) :rule symm :premises (t4539.t2.a10))
% 32.29/32.49 (step t4539.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11)) :rule trans :premises (t4539.t2.t4 t4539.t2.t5))
% 32.29/32.49 (step t4539.t2.t7 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.h2 tptp.e11))) :rule cong :premises (t4539.t2.t6))
% 32.29/32.49 (step t4539.t2.t8 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4539.t2.a3))
% 32.29/32.49 (step t4539.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4539.t2.a4))
% 32.29/32.49 (step t4539.t2.t10 (cl (= (tptp.op2 tptp.unit2 tptp.e24) tptp.e24)) :rule symm :premises (t4539.t2.a9))
% 32.29/32.49 (step t4539.t2.t11 (cl (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule symm :premises (t4539.t2.t10))
% 32.29/32.49 (step t4539.t2.t12 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4539.t2.a8))
% 32.29/32.49 (step t4539.t2.t13 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.49 (step t4539.t2.t14 (cl (= (tptp.op2 tptp.unit2 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule cong :premises (t4539.t2.t12 t4539.t2.t13))
% 32.29/32.49 (step t4539.t2.t15 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t4539.t2.a7))
% 32.29/32.49 (step t4539.t2.t16 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t4539.t2.t15))
% 32.29/32.49 (step t4539.t2.t17 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4539.t2.a6))
% 32.29/32.49 (step t4539.t2.t18 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4539.t2.t17))
% 32.29/32.49 (step t4539.t2.t19 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4539.t2.a5))
% 32.29/32.49 (step t4539.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4539.t2.t19 t4539.t2.t13))
% 32.29/32.49 (step t4539.t2.t21 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4539.t2.t9))
% 32.29/32.49 (step t4539.t2.t22 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule symm :premises (t4539.t2.t8))
% 32.29/32.49 (step t4539.t2.t23 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4539.t2.t21 t4539.t2.t22))
% 32.29/32.49 (step t4539.t2.t24 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4539.t2.a2 t4539.t2.t23))
% 32.29/32.49 (step t4539.t2.t25 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4539.t2.a2))
% 32.29/32.49 (step t4539.t2.t26 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t4539.t2.t25 t4539.t2.t8))
% 32.29/32.49 (step t4539.t2.t27 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4539.t2.a1))
% 32.29/32.49 (step t4539.t2.t28 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4539.t2.t27))
% 32.29/32.49 (step t4539.t2.t29 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t4539.t2.t18 t4539.t2.t20 t4539.t2.t24 t4539.t2.t26 t4539.t2.t28))
% 32.29/32.49 (step t4539.t2.t30 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4539.t2.t28))
% 32.29/32.49 (step t4539.t2.t31 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t4539.t2.t29 t4539.t2.t30))
% 32.29/32.49 (step t4539.t2.t32 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.49 (step t4539.t2.t33 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t4539.t2.t31 t4539.t2.t32))
% 32.29/32.49 (step t4539.t2.t34 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t4539.t2.a0))
% 32.29/32.49 (step t4539.t2.t35 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t4539.t2.t16 t4539.t2.t33 t4539.t2.t34))
% 32.29/32.49 (step t4539.t2.t36 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule cong :premises (t4539.t2.t35 t4539.t2.t23))
% 32.29/32.49 (step t4539.t2.t37 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule trans :premises (t4539.t2.t7 t4539.t2.t8 t4539.t2.t9 t4539.t2.t11 t4539.t2.t14 t4539.t2.t36))
% 32.29/32.49 (step t4539.t2 (cl (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t4539.t2.a0 t4539.t2.a1 t4539.t2.a2 t4539.t2.a3 t4539.t2.a4 t4539.t2.a5 t4539.t2.a6 t4539.t2.a7 t4539.t2.a8 t4539.t2.a9 t4539.t2.a10 t4539.t2.a11))
% 32.29/32.49 (step t4539.t3 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4539.t4 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4539.t5 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4539.t6 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4539.t7 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4539.t8 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4539.t9 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4539.t10 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4539.t11 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4539.t12 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4539.t13 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4539.t14 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4539.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4539.t2 t4539.t3 t4539.t4 t4539.t5 t4539.t6 t4539.t7 t4539.t8 t4539.t9 t4539.t10 t4539.t11 t4539.t12 t4539.t13 t4539.t14))
% 32.29/32.49 (step t4539.t16 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule reordering :premises (t4539.t15))
% 32.29/32.49 (step t4539.t17 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule contraction :premises (t4539.t16))
% 32.29/32.49 (step t4539.t18 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule resolution :premises (t4539.t1 t4539.t17))
% 32.29/32.49 (step t4539.t19 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.29/32.49 (step t4539.t20 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))))) :rule resolution :premises (t4539.t18 t4539.t19))
% 32.29/32.49 (step t4539.t21 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))))) :rule contraction :premises (t4539.t20))
% 32.29/32.49 (step t4539.t22 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule implies :premises (t4539.t21))
% 32.29/32.49 (step t4539.t23 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.49 (step t4539.t24 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4539.t23 t4539.a2 t4539.a11 t4539.a9 t4539.a10 t4539.a6 t4539.a1 t4539.a0 t4539.a5 t4539.a8 t4539.a7 t4539.a3 t4539.a4))
% 32.29/32.49 (step t4539.t25 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule resolution :premises (t4539.t22 t4539.t24))
% 32.29/32.49 (step t4539 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule subproof :discharge (t4539.a0 t4539.a1 t4539.a2 t4539.a3 t4539.a4 t4539.a5 t4539.a6 t4539.a7 t4539.a8 t4539.a9 t4539.a10 t4539.a11))
% 32.29/32.49 (step t4540 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4541 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4542 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4543 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4544 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.49 (step t4545 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4546 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.49 (step t4547 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule and_pos)
% 32.29/32.49 (step t4548 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.49 (step t4549 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.49 (step t4550 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.49 (step t4551 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.49 (step t4552 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4539 t4540 t4541 t4542 t4543 t4544 t4545 t4546 t4547 t4548 t4549 t4550 t4551))
% 32.29/32.49 (step t4553 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule reordering :premises (t4552))
% 32.29/32.49 (step t4554 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule contraction :premises (t4553))
% 32.29/32.49 (step t4555 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule resolution :premises (t4538 t4554))
% 32.29/32.49 (step t4556 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))))) :rule implies_neg2)
% 32.29/32.49 (step t4557 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))))) :rule resolution :premises (t4555 t4556))
% 32.29/32.50 (step t4558 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))))) :rule contraction :premises (t4557))
% 32.29/32.50 (step t4559 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule implies :premises (t4558))
% 32.29/32.50 (step t4560 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11)))) :rule resolution :premises (t4537 t4559))
% 32.29/32.50 (step t4561 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4560))
% 32.29/32.50 (step t4562 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t4563 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4564)
% 32.29/32.50 (assume t4564.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4564.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4564.a2 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.50 (assume t4564.a3 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4564.a4 (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))
% 32.29/32.50 (assume t4564.a5 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4564.a6 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.50 (assume t4564.a7 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (step t4564.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4564.t2)
% 32.29/32.50 (assume t4564.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (assume t4564.t2.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4564.t2.a2 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.50 (assume t4564.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4564.t2.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4564.t2.a5 (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))
% 32.29/32.50 (assume t4564.t2.a6 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.50 (assume t4564.t2.a7 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4564.t2.t1 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4564.t2.a7))
% 32.29/32.50 (step t4564.t2.t2 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4564.t2.t1))
% 32.29/32.50 (step t4564.t2.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.50 (step t4564.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.unit1 tptp.e11))) :rule cong :premises (t4564.t2.t2 t4564.t2.t3))
% 32.29/32.50 (step t4564.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11)) :rule symm :premises (t4564.t2.a6))
% 32.29/32.50 (step t4564.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e11) tptp.e11)) :rule trans :premises (t4564.t2.t4 t4564.t2.t5))
% 32.29/32.50 (step t4564.t2.t7 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.h5 tptp.e11))) :rule cong :premises (t4564.t2.t6))
% 32.29/32.50 (step t4564.t2.t8 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t4564.t2.a2))
% 32.29/32.50 (step t4564.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4564.t2.a3))
% 32.29/32.50 (step t4564.t2.t10 (cl (= (tptp.op2 tptp.unit2 tptp.e21) tptp.e21)) :rule symm :premises (t4564.t2.a5))
% 32.29/32.50 (step t4564.t2.t11 (cl (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule symm :premises (t4564.t2.t10))
% 32.29/32.50 (step t4564.t2.t12 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4564.t2.a4))
% 32.29/32.50 (step t4564.t2.t13 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.50 (step t4564.t2.t14 (cl (= (tptp.op2 tptp.unit2 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) :rule cong :premises (t4564.t2.t12 t4564.t2.t13))
% 32.29/32.50 (step t4564.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t4564.t2.a1))
% 32.29/32.50 (step t4564.t2.t16 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4564.t2.t15))
% 32.29/32.50 (step t4564.t2.t17 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4564.t2.a0))
% 32.29/32.50 (step t4564.t2.t18 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t4564.t2.t17))
% 32.29/32.50 (step t4564.t2.t19 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t4564.t2.t16 t4564.t2.t18))
% 32.29/32.50 (step t4564.t2.t20 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t4564.t2.t9))
% 32.29/32.50 (step t4564.t2.t21 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t4564.t2.t8))
% 32.29/32.50 (step t4564.t2.t22 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t4564.t2.t20 t4564.t2.t21))
% 32.29/32.50 (step t4564.t2.t23 (cl (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule cong :premises (t4564.t2.t19 t4564.t2.t22))
% 32.29/32.50 (step t4564.t2.t24 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule trans :premises (t4564.t2.t7 t4564.t2.t8 t4564.t2.t9 t4564.t2.t11 t4564.t2.t14 t4564.t2.t23))
% 32.29/32.50 (step t4564.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t4564.t2.a0 t4564.t2.a1 t4564.t2.a2 t4564.t2.a3 t4564.t2.a4 t4564.t2.a5 t4564.t2.a6 t4564.t2.a7))
% 32.29/32.50 (step t4564.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4564.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4564.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4564.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4564.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4564.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4564.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4564.t10 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4564.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4564.t2 t4564.t3 t4564.t4 t4564.t5 t4564.t6 t4564.t7 t4564.t8 t4564.t9 t4564.t10))
% 32.29/32.50 (step t4564.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule reordering :premises (t4564.t11))
% 32.29/32.50 (step t4564.t13 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule contraction :premises (t4564.t12))
% 32.29/32.50 (step t4564.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule resolution :premises (t4564.t1 t4564.t13))
% 32.29/32.50 (step t4564.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.29/32.50 (step t4564.t16 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))))) :rule resolution :premises (t4564.t14 t4564.t15))
% 32.29/32.50 (step t4564.t17 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))))) :rule contraction :premises (t4564.t16))
% 32.29/32.50 (step t4564.t18 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule implies :premises (t4564.t17))
% 32.29/32.50 (step t4564.t19 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4564.t20 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4564.t19 t4564.a7 t4564.a1 t4564.a6 t4564.a0 t4564.a5 t4564.a4 t4564.a2 t4564.a3))
% 32.29/32.50 (step t4564.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule resolution :premises (t4564.t18 t4564.t20))
% 32.29/32.50 (step t4564 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule subproof :discharge (t4564.a0 t4564.a1 t4564.a2 t4564.a3 t4564.a4 t4564.a5 t4564.a6 t4564.a7))
% 32.29/32.50 (step t4565 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4566 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4567 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4568 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4569 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4570 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4571 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4572 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4573 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4564 t4565 t4566 t4567 t4568 t4569 t4570 t4571 t4572))
% 32.29/32.50 (step t4574 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule reordering :premises (t4573))
% 32.29/32.50 (step t4575 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule contraction :premises (t4574))
% 32.29/32.50 (step t4576 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule resolution :premises (t4563 t4575))
% 32.29/32.50 (step t4577 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))))) :rule implies_neg2)
% 32.29/32.50 (step t4578 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))))) :rule resolution :premises (t4576 t4577))
% 32.29/32.50 (step t4579 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))))) :rule contraction :premises (t4578))
% 32.29/32.50 (step t4580 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule implies :premises (t4579))
% 32.29/32.50 (step t4581 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11)))) :rule resolution :premises (t4562 t4580))
% 32.29/32.50 (step t4582 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4581))
% 32.29/32.50 (step t4583 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.50 (step t4584 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4585)
% 32.29/32.50 (assume t4585.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4585.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4585.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.50 (assume t4585.a3 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.50 (assume t4585.a4 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t4585.a5 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.50 (assume t4585.a6 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4585.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t4585.a8 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t4585.a9 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.50 (assume t4585.a10 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4585.a11 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t4585.a12 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t4585.a13 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (step t4585.t1 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4585.t2)
% 32.29/32.50 (assume t4585.t2.a0 (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)))
% 32.29/32.50 (assume t4585.t2.a1 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t4585.t2.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t4585.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4585.t2.a4 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.50 (assume t4585.t2.a5 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t4585.t2.a6 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (assume t4585.t2.a7 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t4585.t2.a8 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4585.t2.a9 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t4585.t2.a10 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4585.t2.a11 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.50 (assume t4585.t2.a12 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.50 (assume t4585.t2.a13 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4585.t2.t1 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.50 (step t4585.t2.t2 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4585.t2.a13))
% 32.29/32.50 (step t4585.t2.t3 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4585.t2.t2))
% 32.29/32.50 (step t4585.t2.t4 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.unit1))) :rule cong :premises (t4585.t2.t1 t4585.t2.t3))
% 32.29/32.50 (step t4585.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10)) :rule symm :premises (t4585.t2.a12))
% 32.29/32.50 (step t4585.t2.t6 (cl (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10)) :rule trans :premises (t4585.t2.t4 t4585.t2.t5))
% 32.29/32.50 (step t4585.t2.t7 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.h2 tptp.e10))) :rule cong :premises (t4585.t2.t6))
% 32.29/32.50 (step t4585.t2.t8 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4585.t2.a2))
% 32.29/32.50 (step t4585.t2.t9 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4585.t2.t8))
% 32.29/32.50 (step t4585.t2.t10 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.50 (step t4585.t2.t11 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule cong :premises (t4585.t2.t9 t4585.t2.t10))
% 32.29/32.50 (step t4585.t2.t12 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.op2 tptp.e24 tptp.e21))) :rule symm :premises (t4585.t2.t11))
% 32.29/32.50 (step t4585.t2.t13 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.50 (step t4585.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4585.t2.a3))
% 32.29/32.50 (step t4585.t2.t15 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t4585.t2.t13 t4585.t2.t14))
% 32.29/32.50 (step t4585.t2.t16 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4585.t2.t15))
% 32.29/32.50 (step t4585.t2.t17 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t4585.t2.a4))
% 32.29/32.50 (step t4585.t2.t18 (cl (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23)) :rule symm :premises (t4585.t2.a11))
% 32.29/32.50 (step t4585.t2.t19 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule symm :premises (t4585.t2.t18))
% 32.29/32.50 (step t4585.t2.t20 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.50 (step t4585.t2.t21 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4585.t2.a10))
% 32.29/32.50 (step t4585.t2.t22 (cl (= (tptp.op2 tptp.e23 tptp.unit2) (tptp.op2 tptp.e23 tptp.e22))) :rule cong :premises (t4585.t2.t20 t4585.t2.t21))
% 32.29/32.50 (step t4585.t2.t23 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t4585.t2.t17))
% 32.29/32.50 (step t4585.t2.t24 (cl (= (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21) (tptp.h2 tptp.e10))) :rule symm :premises (t4585.t2.a0))
% 32.29/32.50 (step t4585.t2.t25 (cl (= tptp.e23 (tptp.h2 tptp.e10))) :rule trans :premises (t4585.t2.t23 t4585.t2.t15 t4585.t2.t11 t4585.t2.t24))
% 32.29/32.50 (step t4585.t2.t26 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t4585.t2.a9))
% 32.29/32.50 (step t4585.t2.t27 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t4585.t2.t26))
% 32.29/32.50 (step t4585.t2.t28 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4585.t2.a8))
% 32.29/32.50 (step t4585.t2.t29 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4585.t2.t28))
% 32.29/32.50 (step t4585.t2.t30 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4585.t2.t14 t4585.t2.t13))
% 32.29/32.50 (step t4585.t2.t31 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4585.t2.t9 t4585.t2.a1))
% 32.29/32.50 (step t4585.t2.t32 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4585.t2.a7 t4585.t2.t31))
% 32.29/32.50 (step t4585.t2.t33 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4585.t2.a7))
% 32.29/32.50 (step t4585.t2.t34 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4585.t2.a1))
% 32.29/32.50 (step t4585.t2.t35 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t4585.t2.t33 t4585.t2.t34))
% 32.29/32.50 (step t4585.t2.t36 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4585.t2.a6))
% 32.29/32.50 (step t4585.t2.t37 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4585.t2.t36))
% 32.29/32.50 (step t4585.t2.t38 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t4585.t2.t29 t4585.t2.t30 t4585.t2.t32 t4585.t2.t35 t4585.t2.t37))
% 32.29/32.50 (step t4585.t2.t39 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4585.t2.t37))
% 32.29/32.50 (step t4585.t2.t40 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t4585.t2.t38 t4585.t2.t39))
% 32.29/32.50 (step t4585.t2.t41 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t4585.t2.t40 t4585.t2.t10))
% 32.29/32.50 (step t4585.t2.t42 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t4585.t2.a5))
% 32.29/32.50 (step t4585.t2.t43 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t4585.t2.t27 t4585.t2.t41 t4585.t2.t42))
% 32.29/32.50 (step t4585.t2.t44 (cl (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule cong :premises (t4585.t2.t25 t4585.t2.t43))
% 32.29/32.50 (step t4585.t2.t45 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule trans :premises (t4585.t2.t7 t4585.t2.a0 t4585.t2.t12 t4585.t2.t16 t4585.t2.t17 t4585.t2.t19 t4585.t2.t22 t4585.t2.t44))
% 32.29/32.50 (step t4585.t2 (cl (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t4585.t2.a0 t4585.t2.a1 t4585.t2.a2 t4585.t2.a3 t4585.t2.a4 t4585.t2.a5 t4585.t2.a6 t4585.t2.a7 t4585.t2.a8 t4585.t2.a9 t4585.t2.a10 t4585.t2.a11 t4585.t2.a12 t4585.t2.a13))
% 32.29/32.50 (step t4585.t3 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4585.t4 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4585.t5 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4585.t6 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4585.t7 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.50 (step t4585.t8 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4585.t9 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.50 (step t4585.t10 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4585.t11 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4585.t12 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4585.t13 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4585.t14 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4585.t15 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4585.t16 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4585.t17 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4585.t2 t4585.t3 t4585.t4 t4585.t5 t4585.t6 t4585.t7 t4585.t8 t4585.t9 t4585.t10 t4585.t11 t4585.t12 t4585.t13 t4585.t14 t4585.t15 t4585.t16))
% 32.29/32.50 (step t4585.t18 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule reordering :premises (t4585.t17))
% 32.29/32.50 (step t4585.t19 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule contraction :premises (t4585.t18))
% 32.29/32.50 (step t4585.t20 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4585.t1 t4585.t19))
% 32.29/32.50 (step t4585.t21 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4585.t22 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))))) :rule resolution :premises (t4585.t20 t4585.t21))
% 32.29/32.50 (step t4585.t23 (cl (=> (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))))) :rule contraction :premises (t4585.t22))
% 32.29/32.50 (step t4585.t24 (cl (not (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule implies :premises (t4585.t23))
% 32.29/32.50 (step t4585.t25 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4585.t26 (cl (and (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4585.t25 t4585.a3 t4585.a12 t4585.a8 t4585.a1 t4585.a2 t4585.a4 t4585.a13 t4585.a11 t4585.a0 t4585.a7 t4585.a10 t4585.a9 t4585.a5 t4585.a6))
% 32.29/32.50 (step t4585.t27 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4585.t24 t4585.t26))
% 32.29/32.50 (step t4585 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t4585.a0 t4585.a1 t4585.a2 t4585.a3 t4585.a4 t4585.a5 t4585.a6 t4585.a7 t4585.a8 t4585.a9 t4585.a10 t4585.a11 t4585.a12 t4585.a13))
% 32.29/32.50 (step t4586 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4587 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4588 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.50 (step t4589 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4590 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4591 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4592 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4593 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4594 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4595 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4596 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4597 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4598 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4599 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.50 (step t4600 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4585 t4586 t4587 t4588 t4589 t4590 t4591 t4592 t4593 t4594 t4595 t4596 t4597 t4598 t4599))
% 32.29/32.50 (step t4601 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule reordering :premises (t4600))
% 32.29/32.50 (step t4602 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule contraction :premises (t4601))
% 32.29/32.50 (step t4603 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4584 t4602))
% 32.29/32.50 (step t4604 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4605 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))))) :rule resolution :premises (t4603 t4604))
% 32.29/32.50 (step t4606 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))))) :rule contraction :premises (t4605))
% 32.29/32.50 (step t4607 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule implies :premises (t4606))
% 32.29/32.50 (step t4608 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4583 t4607))
% 32.29/32.50 (step t4609 (cl (= (tptp.h2 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e10) (tptp.h2 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e10) (tptp.op2 (tptp.op2 tptp.e21 tptp.e21) tptp.e21))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4608))
% 32.29/32.50 (step t4610 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and :premises (t4419))
% 32.29/32.50 (step t4611 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t4612 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4613)
% 32.29/32.50 (assume t4613.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4613.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4613.a2 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.50 (assume t4613.a3 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4613.a4 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.50 (assume t4613.a5 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4613.a6 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.50 (assume t4613.a7 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (step t4613.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4613.t2)
% 32.29/32.50 (assume t4613.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)))
% 32.29/32.50 (assume t4613.t2.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4613.t2.a2 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (assume t4613.t2.a3 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4613.t2.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4613.t2.a5 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.50 (assume t4613.t2.a6 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.50 (assume t4613.t2.a7 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4613.t2.t1 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.50 (step t4613.t2.t2 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4613.t2.a7))
% 32.29/32.50 (step t4613.t2.t3 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4613.t2.t2))
% 32.29/32.50 (step t4613.t2.t4 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.unit1))) :rule cong :premises (t4613.t2.t1 t4613.t2.t3))
% 32.29/32.50 (step t4613.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10)) :rule symm :premises (t4613.t2.a6))
% 32.29/32.50 (step t4613.t2.t6 (cl (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10)) :rule trans :premises (t4613.t2.t4 t4613.t2.t5))
% 32.29/32.50 (step t4613.t2.t7 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.h5 tptp.e10))) :rule cong :premises (t4613.t2.t6))
% 32.29/32.50 (step t4613.t2.t8 (cl (= (tptp.h5 tptp.e10) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4613.t2.a0))
% 32.29/32.50 (step t4613.t2.t9 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4613.t2.a1))
% 32.29/32.50 (step t4613.t2.t10 (cl (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20)) :rule symm :premises (t4613.t2.a5))
% 32.29/32.50 (step t4613.t2.t11 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule symm :premises (t4613.t2.t10))
% 32.29/32.50 (step t4613.t2.t12 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.50 (step t4613.t2.t13 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4613.t2.a4))
% 32.29/32.50 (step t4613.t2.t14 (cl (= (tptp.op2 tptp.e20 tptp.unit2) (tptp.op2 tptp.e20 tptp.e22))) :rule cong :premises (t4613.t2.t12 t4613.t2.t13))
% 32.29/32.50 (step t4613.t2.t15 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4613.t2.t9))
% 32.29/32.50 (step t4613.t2.t16 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule symm :premises (t4613.t2.t8))
% 32.29/32.50 (step t4613.t2.t17 (cl (= tptp.e20 (tptp.h5 tptp.e10))) :rule trans :premises (t4613.t2.t15 t4613.t2.t16))
% 32.29/32.50 (step t4613.t2.t18 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t4613.t2.a3))
% 32.29/32.50 (step t4613.t2.t19 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4613.t2.t18))
% 32.29/32.50 (step t4613.t2.t20 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4613.t2.a2))
% 32.29/32.50 (step t4613.t2.t21 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t4613.t2.t20))
% 32.29/32.50 (step t4613.t2.t22 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t4613.t2.t19 t4613.t2.t21))
% 32.29/32.50 (step t4613.t2.t23 (cl (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule cong :premises (t4613.t2.t17 t4613.t2.t22))
% 32.29/32.50 (step t4613.t2.t24 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule trans :premises (t4613.t2.t7 t4613.t2.t8 t4613.t2.t9 t4613.t2.t11 t4613.t2.t14 t4613.t2.t23))
% 32.29/32.50 (step t4613.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t4613.t2.a0 t4613.t2.a1 t4613.t2.a2 t4613.t2.a3 t4613.t2.a4 t4613.t2.a5 t4613.t2.a6 t4613.t2.a7))
% 32.29/32.50 (step t4613.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.50 (step t4613.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4613.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4613.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4613.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4613.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4613.t9 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4613.t10 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4613.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4613.t2 t4613.t3 t4613.t4 t4613.t5 t4613.t6 t4613.t7 t4613.t8 t4613.t9 t4613.t10))
% 32.29/32.50 (step t4613.t12 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4613.t11))
% 32.29/32.50 (step t4613.t13 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule contraction :premises (t4613.t12))
% 32.29/32.50 (step t4613.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4613.t1 t4613.t13))
% 32.29/32.50 (step t4613.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4613.t16 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4613.t14 t4613.t15))
% 32.29/32.50 (step t4613.t17 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))))) :rule contraction :premises (t4613.t16))
% 32.29/32.50 (step t4613.t18 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule implies :premises (t4613.t17))
% 32.29/32.50 (step t4613.t19 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4613.t20 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4613.t19 t4613.a6 t4613.a0 t4613.a7 t4613.a1 t4613.a5 t4613.a4 t4613.a2 t4613.a3))
% 32.29/32.50 (step t4613.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4613.t18 t4613.t20))
% 32.29/32.50 (step t4613 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t4613.a0 t4613.a1 t4613.a2 t4613.a3 t4613.a4 t4613.a5 t4613.a6 t4613.a7))
% 32.29/32.50 (step t4614 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4615 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4616 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4617 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4618 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4619 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4620 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) :rule and_pos)
% 32.29/32.50 (step t4621 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4622 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4613 t4614 t4615 t4616 t4617 t4618 t4619 t4620 t4621))
% 32.29/32.50 (step t4623 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4622))
% 32.29/32.50 (step t4624 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule contraction :premises (t4623))
% 32.29/32.50 (step t4625 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4612 t4624))
% 32.29/32.50 (step t4626 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4627 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4625 t4626))
% 32.29/32.50 (step t4628 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))))) :rule contraction :premises (t4627))
% 32.29/32.50 (step t4629 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule implies :premises (t4628))
% 32.29/32.50 (step t4630 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4611 t4629))
% 32.29/32.50 (step t4631 (cl (= (tptp.h5 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e10) (tptp.h5 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.h5 tptp.e10))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4630))
% 32.29/32.50 (step t4632 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and :premises (t4419))
% 32.29/32.50 (step t4633 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.50 (step t4634 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4635)
% 32.29/32.50 (assume t4635.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4635.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4635.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t4635.a3 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (assume t4635.a4 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4635.a5 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t4635.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t4635.a7 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.50 (assume t4635.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4635.a9 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t4635.a10 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t4635.a11 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (step t4635.t1 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4635.t2)
% 32.29/32.50 (assume t4635.t2.a0 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t4635.t2.a1 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t4635.t2.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t4635.t2.a3 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (assume t4635.t2.a4 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t4635.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4635.t2.a6 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4635.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t4635.t2.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4635.t2.a9 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.50 (assume t4635.t2.a10 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (assume t4635.t2.a11 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4635.t2.t1 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.50 (step t4635.t2.t2 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4635.t2.a11))
% 32.29/32.50 (step t4635.t2.t3 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4635.t2.t2))
% 32.29/32.50 (step t4635.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.unit1))) :rule cong :premises (t4635.t2.t1 t4635.t2.t3))
% 32.29/32.50 (step t4635.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t4635.t2.a10))
% 32.29/32.50 (step t4635.t2.t6 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t4635.t2.t5))
% 32.29/32.50 (step t4635.t2.t7 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t4635.t2.t6))
% 32.29/32.50 (step t4635.t2.t8 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) :rule trans :premises (t4635.t2.t4 t4635.t2.t7))
% 32.29/32.50 (step t4635.t2.t9 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.h2 tptp.e11))) :rule cong :premises (t4635.t2.t8))
% 32.29/32.50 (step t4635.t2.t10 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4635.t2.a0))
% 32.29/32.50 (step t4635.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4635.t2.a1))
% 32.29/32.50 (step t4635.t2.t12 (cl (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24)) :rule symm :premises (t4635.t2.a9))
% 32.29/32.50 (step t4635.t2.t13 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule symm :premises (t4635.t2.t12))
% 32.29/32.50 (step t4635.t2.t14 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.50 (step t4635.t2.t15 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4635.t2.a8))
% 32.29/32.50 (step t4635.t2.t16 (cl (= (tptp.op2 tptp.e24 tptp.unit2) (tptp.op2 tptp.e24 tptp.e22))) :rule cong :premises (t4635.t2.t14 t4635.t2.t15))
% 32.29/32.50 (step t4635.t2.t17 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4635.t2.t11))
% 32.29/32.50 (step t4635.t2.t18 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4635.t2.t17 t4635.t2.a0))
% 32.29/32.50 (step t4635.t2.t19 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t4635.t2.a7))
% 32.29/32.50 (step t4635.t2.t20 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t4635.t2.t19))
% 32.29/32.50 (step t4635.t2.t21 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4635.t2.a6))
% 32.29/32.50 (step t4635.t2.t22 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4635.t2.t21))
% 32.29/32.50 (step t4635.t2.t23 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4635.t2.a5))
% 32.29/32.50 (step t4635.t2.t24 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4635.t2.t23 t4635.t2.t14))
% 32.29/32.50 (step t4635.t2.t25 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4635.t2.a4 t4635.t2.t18))
% 32.29/32.50 (step t4635.t2.t26 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4635.t2.a4))
% 32.29/32.50 (step t4635.t2.t27 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t4635.t2.t26 t4635.t2.t10))
% 32.29/32.50 (step t4635.t2.t28 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4635.t2.a3))
% 32.29/32.50 (step t4635.t2.t29 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4635.t2.t28))
% 32.29/32.50 (step t4635.t2.t30 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t4635.t2.t22 t4635.t2.t24 t4635.t2.t25 t4635.t2.t27 t4635.t2.t29))
% 32.29/32.50 (step t4635.t2.t31 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4635.t2.t29))
% 32.29/32.50 (step t4635.t2.t32 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t4635.t2.t30 t4635.t2.t31))
% 32.29/32.50 (step t4635.t2.t33 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.50 (step t4635.t2.t34 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t4635.t2.t32 t4635.t2.t33))
% 32.29/32.50 (step t4635.t2.t35 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t4635.t2.a2))
% 32.29/32.50 (step t4635.t2.t36 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t4635.t2.t20 t4635.t2.t34 t4635.t2.t35))
% 32.29/32.50 (step t4635.t2.t37 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule cong :premises (t4635.t2.t18 t4635.t2.t36))
% 32.29/32.50 (step t4635.t2.t38 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule trans :premises (t4635.t2.t9 t4635.t2.t10 t4635.t2.t11 t4635.t2.t13 t4635.t2.t16 t4635.t2.t37))
% 32.29/32.50 (step t4635.t2 (cl (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t4635.t2.a0 t4635.t2.a1 t4635.t2.a2 t4635.t2.a3 t4635.t2.a4 t4635.t2.a5 t4635.t2.a6 t4635.t2.a7 t4635.t2.a8 t4635.t2.a9 t4635.t2.a10 t4635.t2.a11))
% 32.29/32.50 (step t4635.t3 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4635.t4 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4635.t5 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4635.t6 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.50 (step t4635.t7 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4635.t8 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4635.t9 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4635.t10 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4635.t11 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4635.t12 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4635.t13 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4635.t14 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4635.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4635.t2 t4635.t3 t4635.t4 t4635.t5 t4635.t6 t4635.t7 t4635.t8 t4635.t9 t4635.t10 t4635.t11 t4635.t12 t4635.t13 t4635.t14))
% 32.29/32.50 (step t4635.t16 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule reordering :premises (t4635.t15))
% 32.29/32.50 (step t4635.t17 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule contraction :premises (t4635.t16))
% 32.29/32.50 (step t4635.t18 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4635.t1 t4635.t17))
% 32.29/32.50 (step t4635.t19 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4635.t20 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))))) :rule resolution :premises (t4635.t18 t4635.t19))
% 32.29/32.50 (step t4635.t21 (cl (=> (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))))) :rule contraction :premises (t4635.t20))
% 32.29/32.50 (step t4635.t22 (cl (not (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule implies :premises (t4635.t21))
% 32.29/32.50 (step t4635.t23 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4635.t24 (cl (and (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4635.t23 t4635.a10 t4635.a6 t4635.a2 t4635.a11 t4635.a9 t4635.a1 t4635.a0 t4635.a5 t4635.a8 t4635.a7 t4635.a3 t4635.a4))
% 32.29/32.50 (step t4635.t25 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4635.t22 t4635.t24))
% 32.29/32.50 (step t4635 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t4635.a0 t4635.a1 t4635.a2 t4635.a3 t4635.a4 t4635.a5 t4635.a6 t4635.a7 t4635.a8 t4635.a9 t4635.a10 t4635.a11))
% 32.29/32.50 (step t4636 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4637 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4638 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4639 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4640 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4641 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4642 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4643 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4644 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4645 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4646 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4647 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.50 (step t4648 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4635 t4636 t4637 t4638 t4639 t4640 t4641 t4642 t4643 t4644 t4645 t4646 t4647))
% 32.29/32.50 (step t4649 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule reordering :premises (t4648))
% 32.29/32.50 (step t4650 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule contraction :premises (t4649))
% 32.29/32.50 (step t4651 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4634 t4650))
% 32.29/32.50 (step t4652 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4653 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))))) :rule resolution :premises (t4651 t4652))
% 32.29/32.50 (step t4654 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))))) :rule contraction :premises (t4653))
% 32.29/32.50 (step t4655 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule implies :premises (t4654))
% 32.29/32.50 (step t4656 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4633 t4655))
% 32.29/32.50 (step t4657 (cl (= (tptp.h2 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e11) (tptp.h2 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4656))
% 32.29/32.50 (step t4658 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and :premises (t4419))
% 32.29/32.50 (step t4659 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t4660 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4661)
% 32.29/32.50 (assume t4661.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4661.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4661.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (assume t4661.a3 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4661.a4 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.29/32.50 (assume t4661.a5 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4661.a6 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.50 (assume t4661.a7 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (step t4661.t1 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4661.t2)
% 32.29/32.50 (assume t4661.t2.a0 (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)))
% 32.29/32.50 (assume t4661.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4661.t2.a2 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (assume t4661.t2.a3 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4661.t2.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4661.t2.a5 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.29/32.50 (assume t4661.t2.a6 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (assume t4661.t2.a7 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4661.t2.t1 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.50 (step t4661.t2.t2 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4661.t2.a7))
% 32.29/32.50 (step t4661.t2.t3 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4661.t2.t2))
% 32.29/32.50 (step t4661.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.unit1))) :rule cong :premises (t4661.t2.t1 t4661.t2.t3))
% 32.29/32.50 (step t4661.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t4661.t2.a6))
% 32.29/32.50 (step t4661.t2.t6 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t4661.t2.t5))
% 32.29/32.50 (step t4661.t2.t7 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t4661.t2.t6))
% 32.29/32.50 (step t4661.t2.t8 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) :rule trans :premises (t4661.t2.t4 t4661.t2.t7))
% 32.29/32.50 (step t4661.t2.t9 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.h5 tptp.e11))) :rule cong :premises (t4661.t2.t8))
% 32.29/32.50 (step t4661.t2.t10 (cl (= (tptp.h5 tptp.e11) (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t4661.t2.a0))
% 32.29/32.50 (step t4661.t2.t11 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4661.t2.a1))
% 32.29/32.50 (step t4661.t2.t12 (cl (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21)) :rule symm :premises (t4661.t2.a5))
% 32.29/32.50 (step t4661.t2.t13 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule symm :premises (t4661.t2.t12))
% 32.29/32.50 (step t4661.t2.t14 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.50 (step t4661.t2.t15 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4661.t2.a4))
% 32.29/32.50 (step t4661.t2.t16 (cl (= (tptp.op2 tptp.e21 tptp.unit2) (tptp.op2 tptp.e21 tptp.e22))) :rule cong :premises (t4661.t2.t14 t4661.t2.t15))
% 32.29/32.50 (step t4661.t2.t17 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t4661.t2.t11))
% 32.29/32.50 (step t4661.t2.t18 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule symm :premises (t4661.t2.t10))
% 32.29/32.50 (step t4661.t2.t19 (cl (= tptp.e21 (tptp.h5 tptp.e11))) :rule trans :premises (t4661.t2.t17 t4661.t2.t18))
% 32.29/32.50 (step t4661.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t4661.t2.a3))
% 32.29/32.50 (step t4661.t2.t21 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4661.t2.t20))
% 32.29/32.50 (step t4661.t2.t22 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4661.t2.a2))
% 32.29/32.50 (step t4661.t2.t23 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t4661.t2.t22))
% 32.29/32.50 (step t4661.t2.t24 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t4661.t2.t21 t4661.t2.t23))
% 32.29/32.50 (step t4661.t2.t25 (cl (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule cong :premises (t4661.t2.t19 t4661.t2.t24))
% 32.29/32.50 (step t4661.t2.t26 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule trans :premises (t4661.t2.t9 t4661.t2.t10 t4661.t2.t11 t4661.t2.t13 t4661.t2.t16 t4661.t2.t25))
% 32.29/32.50 (step t4661.t2 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t4661.t2.a0 t4661.t2.a1 t4661.t2.a2 t4661.t2.a3 t4661.t2.a4 t4661.t2.a5 t4661.t2.a6 t4661.t2.a7))
% 32.29/32.50 (step t4661.t3 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4661.t4 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4661.t5 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4661.t6 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4661.t7 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4661.t8 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4661.t9 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4661.t10 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4661.t11 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4661.t2 t4661.t3 t4661.t4 t4661.t5 t4661.t6 t4661.t7 t4661.t8 t4661.t9 t4661.t10))
% 32.29/32.50 (step t4661.t12 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4661.t11))
% 32.29/32.50 (step t4661.t13 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule contraction :premises (t4661.t12))
% 32.29/32.50 (step t4661.t14 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4661.t1 t4661.t13))
% 32.29/32.50 (step t4661.t15 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4661.t16 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4661.t14 t4661.t15))
% 32.29/32.50 (step t4661.t17 (cl (=> (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))))) :rule contraction :premises (t4661.t16))
% 32.29/32.50 (step t4661.t18 (cl (not (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule implies :premises (t4661.t17))
% 32.29/32.50 (step t4661.t19 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4661.t20 (cl (and (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4661.t19 t4661.a6 t4661.a0 t4661.a7 t4661.a1 t4661.a5 t4661.a4 t4661.a2 t4661.a3))
% 32.29/32.50 (step t4661.t21 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4661.t18 t4661.t20))
% 32.29/32.50 (step t4661 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t4661.a0 t4661.a1 t4661.a2 t4661.a3 t4661.a4 t4661.a5 t4661.a6 t4661.a7))
% 32.29/32.50 (step t4662 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4663 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4664 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4665 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4666 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4667 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4668 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4669 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4670 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4661 t4662 t4663 t4664 t4665 t4666 t4667 t4668 t4669))
% 32.29/32.50 (step t4671 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4670))
% 32.29/32.50 (step t4672 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule contraction :premises (t4671))
% 32.29/32.50 (step t4673 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4660 t4672))
% 32.29/32.50 (step t4674 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4675 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4673 t4674))
% 32.29/32.50 (step t4676 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))))) :rule contraction :premises (t4675))
% 32.29/32.50 (step t4677 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule implies :premises (t4676))
% 32.29/32.50 (step t4678 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4659 t4677))
% 32.29/32.50 (step t4679 (cl (= (tptp.h5 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e11) (tptp.h5 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.h5 tptp.e11))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4678))
% 32.29/32.50 (step t4680 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and :premises (t4419))
% 32.29/32.50 (step t4681 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.50 (step t4682 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4683)
% 32.29/32.50 (assume t4683.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4683.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4683.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t4683.a3 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.50 (assume t4683.a4 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4683.a5 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t4683.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t4683.a7 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.50 (assume t4683.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4683.a9 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t4683.a10 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t4683.a11 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (step t4683.t1 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4683.t2)
% 32.29/32.50 (assume t4683.t2.a0 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t4683.t2.a1 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (assume t4683.t2.a2 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t4683.t2.a3 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t4683.t2.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t4683.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4683.t2.a6 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4683.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t4683.t2.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4683.t2.a9 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.50 (assume t4683.t2.a10 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.50 (assume t4683.t2.a11 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4683.t2.t1 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.50 (step t4683.t2.t2 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4683.t2.a11))
% 32.29/32.50 (step t4683.t2.t3 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4683.t2.t2))
% 32.29/32.50 (step t4683.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.unit1))) :rule cong :premises (t4683.t2.t1 t4683.t2.t3))
% 32.29/32.50 (step t4683.t2.t5 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t4683.t2.a10))
% 32.29/32.50 (step t4683.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12)) :rule trans :premises (t4683.t2.t4 t4683.t2.t5))
% 32.29/32.50 (step t4683.t2.t7 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.h2 tptp.e12))) :rule cong :premises (t4683.t2.t6))
% 32.29/32.50 (step t4683.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4683.t2.a6))
% 32.29/32.50 (step t4683.t2.t9 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4683.t2.t8))
% 32.29/32.50 (step t4683.t2.t10 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4683.t2.a5))
% 32.29/32.50 (step t4683.t2.t11 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.50 (step t4683.t2.t12 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4683.t2.t10 t4683.t2.t11))
% 32.29/32.50 (step t4683.t2.t13 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4683.t2.a4))
% 32.29/32.50 (step t4683.t2.t14 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4683.t2.t13))
% 32.29/32.50 (step t4683.t2.t15 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4683.t2.t14 t4683.t2.a3))
% 32.29/32.50 (step t4683.t2.t16 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4683.t2.a2 t4683.t2.t15))
% 32.29/32.50 (step t4683.t2.t17 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4683.t2.a2))
% 32.29/32.50 (step t4683.t2.t18 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4683.t2.a3))
% 32.29/32.50 (step t4683.t2.t19 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t4683.t2.t17 t4683.t2.t18))
% 32.29/32.50 (step t4683.t2.t20 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4683.t2.a1))
% 32.29/32.50 (step t4683.t2.t21 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4683.t2.t20))
% 32.29/32.50 (step t4683.t2.t22 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t4683.t2.t9 t4683.t2.t12 t4683.t2.t16 t4683.t2.t19 t4683.t2.t21))
% 32.29/32.50 (step t4683.t2.t23 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4683.t2.t21))
% 32.29/32.50 (step t4683.t2.t24 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t4683.t2.t22 t4683.t2.t23))
% 32.29/32.50 (step t4683.t2.t25 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.50 (step t4683.t2.t26 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t4683.t2.t24 t4683.t2.t25))
% 32.29/32.50 (step t4683.t2.t27 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t4683.t2.t26))
% 32.29/32.50 (step t4683.t2.t28 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t4683.t2.a7))
% 32.29/32.50 (step t4683.t2.t29 (cl (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22)) :rule symm :premises (t4683.t2.a9))
% 32.29/32.50 (step t4683.t2.t30 (cl (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule symm :premises (t4683.t2.t29))
% 32.29/32.50 (step t4683.t2.t31 (cl (= tptp.e22 tptp.e22)) :rule refl)
% 32.29/32.50 (step t4683.t2.t32 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4683.t2.a8))
% 32.29/32.50 (step t4683.t2.t33 (cl (= (tptp.op2 tptp.e22 tptp.unit2) (tptp.op2 tptp.e22 tptp.e22))) :rule cong :premises (t4683.t2.t31 t4683.t2.t32))
% 32.29/32.50 (step t4683.t2.t34 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t4683.t2.t28))
% 32.29/32.50 (step t4683.t2.t35 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t4683.t2.a0))
% 32.29/32.50 (step t4683.t2.t36 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t4683.t2.t34 t4683.t2.t26 t4683.t2.t35))
% 32.29/32.50 (step t4683.t2.t37 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule cong :premises (t4683.t2.t36 t4683.t2.t36))
% 32.29/32.50 (step t4683.t2.t38 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule trans :premises (t4683.t2.t7 t4683.t2.a0 t4683.t2.t27 t4683.t2.t28 t4683.t2.t30 t4683.t2.t33 t4683.t2.t37))
% 32.29/32.50 (step t4683.t2 (cl (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t4683.t2.a0 t4683.t2.a1 t4683.t2.a2 t4683.t2.a3 t4683.t2.a4 t4683.t2.a5 t4683.t2.a6 t4683.t2.a7 t4683.t2.a8 t4683.t2.a9 t4683.t2.a10 t4683.t2.a11))
% 32.29/32.50 (step t4683.t3 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4683.t4 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.50 (step t4683.t5 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4683.t6 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4683.t7 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4683.t8 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4683.t9 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4683.t10 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4683.t11 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4683.t12 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4683.t13 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4683.t14 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4683.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4683.t2 t4683.t3 t4683.t4 t4683.t5 t4683.t6 t4683.t7 t4683.t8 t4683.t9 t4683.t10 t4683.t11 t4683.t12 t4683.t13 t4683.t14))
% 32.29/32.50 (step t4683.t16 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule reordering :premises (t4683.t15))
% 32.29/32.50 (step t4683.t17 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule contraction :premises (t4683.t16))
% 32.29/32.50 (step t4683.t18 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4683.t1 t4683.t17))
% 32.29/32.50 (step t4683.t19 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4683.t20 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))))) :rule resolution :premises (t4683.t18 t4683.t19))
% 32.29/32.50 (step t4683.t21 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))))) :rule contraction :premises (t4683.t20))
% 32.29/32.50 (step t4683.t22 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule implies :premises (t4683.t21))
% 32.29/32.50 (step t4683.t23 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4683.t24 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4683.t23 t4683.a2 t4683.a11 t4683.a9 t4683.a10 t4683.a6 t4683.a1 t4683.a0 t4683.a5 t4683.a8 t4683.a7 t4683.a3 t4683.a4))
% 32.29/32.50 (step t4683.t25 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4683.t22 t4683.t24))
% 32.29/32.50 (step t4683 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t4683.a0 t4683.a1 t4683.a2 t4683.a3 t4683.a4 t4683.a5 t4683.a6 t4683.a7 t4683.a8 t4683.a9 t4683.a10 t4683.a11))
% 32.29/32.50 (step t4684 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4685 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4686 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4687 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4688 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4689 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4690 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4691 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4692 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4693 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4694 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4695 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.50 (step t4696 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4683 t4684 t4685 t4686 t4687 t4688 t4689 t4690 t4691 t4692 t4693 t4694 t4695))
% 32.29/32.50 (step t4697 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule reordering :premises (t4696))
% 32.29/32.50 (step t4698 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule contraction :premises (t4697))
% 32.29/32.50 (step t4699 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4682 t4698))
% 32.29/32.50 (step t4700 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4701 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))))) :rule resolution :premises (t4699 t4700))
% 32.29/32.50 (step t4702 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))))) :rule contraction :premises (t4701))
% 32.29/32.50 (step t4703 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule implies :premises (t4702))
% 32.29/32.50 (step t4704 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4681 t4703))
% 32.29/32.50 (step t4705 (cl (= (tptp.h2 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e12) (tptp.h2 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4704))
% 32.29/32.50 (step t4706 (cl (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and :premises (t4419))
% 32.29/32.50 (step t4707 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and :premises (t1380))
% 32.29/32.50 (step t4708 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t4709 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4710)
% 32.29/32.50 (assume t4710.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4710.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.50 (assume t4710.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4710.a3 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.50 (assume t4710.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4710.a5 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (step t4710.t1 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4710.t2)
% 32.29/32.50 (assume t4710.t2.a0 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (assume t4710.t2.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4710.t2.a2 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4710.t2.a3 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.50 (assume t4710.t2.a4 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.50 (assume t4710.t2.a5 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4710.t2.t1 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.50 (step t4710.t2.t2 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4710.t2.a5))
% 32.29/32.50 (step t4710.t2.t3 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4710.t2.t2))
% 32.29/32.50 (step t4710.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.unit1))) :rule cong :premises (t4710.t2.t1 t4710.t2.t3))
% 32.29/32.50 (step t4710.t2.t5 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t4710.t2.a4))
% 32.29/32.50 (step t4710.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12)) :rule trans :premises (t4710.t2.t4 t4710.t2.t5))
% 32.29/32.50 (step t4710.t2.t7 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.h5 tptp.e12))) :rule cong :premises (t4710.t2.t6))
% 32.29/32.50 (step t4710.t2.t8 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4710.t2.a0))
% 32.29/32.50 (step t4710.t2.t9 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t4710.t2.a1))
% 32.29/32.50 (step t4710.t2.t10 (cl (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22)) :rule symm :premises (t4710.t2.a3))
% 32.29/32.50 (step t4710.t2.t11 (cl (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule symm :premises (t4710.t2.t10))
% 32.29/32.50 (step t4710.t2.t12 (cl (= tptp.e22 tptp.e22)) :rule refl)
% 32.29/32.50 (step t4710.t2.t13 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4710.t2.a2))
% 32.29/32.50 (step t4710.t2.t14 (cl (= (tptp.op2 tptp.e22 tptp.unit2) (tptp.op2 tptp.e22 tptp.e22))) :rule cong :premises (t4710.t2.t12 t4710.t2.t13))
% 32.29/32.50 (step t4710.t2.t15 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4710.t2.t9))
% 32.29/32.50 (step t4710.t2.t16 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t4710.t2.t8))
% 32.29/32.50 (step t4710.t2.t17 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t4710.t2.t15 t4710.t2.t16))
% 32.29/32.50 (step t4710.t2.t18 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule cong :premises (t4710.t2.t17 t4710.t2.t17))
% 32.29/32.50 (step t4710.t2.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule trans :premises (t4710.t2.t7 t4710.t2.t8 t4710.t2.t9 t4710.t2.t11 t4710.t2.t14 t4710.t2.t18))
% 32.29/32.50 (step t4710.t2 (cl (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t4710.t2.a0 t4710.t2.a1 t4710.t2.a2 t4710.t2.a3 t4710.t2.a4 t4710.t2.a5))
% 32.29/32.50 (step t4710.t3 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4710.t4 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4710.t5 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4710.t6 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4710.t7 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4710.t8 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4710.t9 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4710.t2 t4710.t3 t4710.t4 t4710.t5 t4710.t6 t4710.t7 t4710.t8))
% 32.29/32.50 (step t4710.t10 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4710.t9))
% 32.29/32.50 (step t4710.t11 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule contraction :premises (t4710.t10))
% 32.29/32.50 (step t4710.t12 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4710.t1 t4710.t11))
% 32.29/32.50 (step t4710.t13 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4710.t14 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4710.t12 t4710.t13))
% 32.29/32.50 (step t4710.t15 (cl (=> (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))))) :rule contraction :premises (t4710.t14))
% 32.29/32.50 (step t4710.t16 (cl (not (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule implies :premises (t4710.t15))
% 32.29/32.50 (step t4710.t17 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4710.t18 (cl (and (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4710.t17 t4710.a5 t4710.a0 t4710.a4 t4710.a3 t4710.a1 t4710.a2))
% 32.29/32.50 (step t4710.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4710.t16 t4710.t18))
% 32.29/32.50 (step t4710 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t4710.a0 t4710.a1 t4710.a2 t4710.a3 t4710.a4 t4710.a5))
% 32.29/32.50 (step t4711 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4712 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4713 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4714 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4715 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4716 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4717 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4710 t4711 t4712 t4713 t4714 t4715 t4716))
% 32.29/32.50 (step t4718 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4717))
% 32.29/32.50 (step t4719 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule contraction :premises (t4718))
% 32.29/32.50 (step t4720 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4709 t4719))
% 32.29/32.50 (step t4721 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4722 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4720 t4721))
% 32.29/32.50 (step t4723 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))))) :rule contraction :premises (t4722))
% 32.29/32.50 (step t4724 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule implies :premises (t4723))
% 32.29/32.50 (step t4725 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4708 t4724))
% 32.29/32.50 (step t4726 (cl (= (tptp.h5 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e12) (tptp.h5 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4725))
% 32.29/32.50 (step t4727 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.50 (step t4728 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4729)
% 32.29/32.50 (assume t4729.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4729.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4729.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t4729.a3 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (assume t4729.a4 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4729.a5 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t4729.a6 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t4729.a7 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.29/32.50 (assume t4729.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4729.a9 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t4729.a10 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t4729.a11 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (step t4729.t1 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4729.t2)
% 32.29/32.50 (assume t4729.t2.a0 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t4729.t2.a1 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t4729.t2.a2 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (assume t4729.t2.a3 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t4729.t2.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t4729.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t4729.t2.a6 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t4729.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t4729.t2.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4729.t2.a9 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.29/32.50 (assume t4729.t2.a10 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (assume t4729.t2.a11 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4729.t2.t1 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.50 (step t4729.t2.t2 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4729.t2.a11))
% 32.29/32.50 (step t4729.t2.t3 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4729.t2.t2))
% 32.29/32.50 (step t4729.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.unit1))) :rule cong :premises (t4729.t2.t1 t4729.t2.t3))
% 32.29/32.50 (step t4729.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t4729.t2.a10))
% 32.29/32.50 (step t4729.t2.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t4729.t2.t5))
% 32.29/32.50 (step t4729.t2.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t4729.t2.t6))
% 32.29/32.50 (step t4729.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule trans :premises (t4729.t2.t4 t4729.t2.t7))
% 32.29/32.50 (step t4729.t2.t9 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.h2 tptp.e14))) :rule cong :premises (t4729.t2.t8))
% 32.29/32.50 (step t4729.t2.t10 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t4729.t2.a0))
% 32.29/32.50 (step t4729.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21)) :rule symm :premises (t4729.t2.a9))
% 32.29/32.50 (step t4729.t2.t12 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule symm :premises (t4729.t2.t11))
% 32.29/32.50 (step t4729.t2.t13 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.50 (step t4729.t2.t14 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4729.t2.a8))
% 32.29/32.50 (step t4729.t2.t15 (cl (= (tptp.op2 tptp.e21 tptp.unit2) (tptp.op2 tptp.e21 tptp.e22))) :rule cong :premises (t4729.t2.t13 t4729.t2.t14))
% 32.29/32.50 (step t4729.t2.t16 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t4729.t2.a7))
% 32.29/32.50 (step t4729.t2.t17 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t4729.t2.t16))
% 32.29/32.50 (step t4729.t2.t18 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t4729.t2.a6))
% 32.29/32.50 (step t4729.t2.t19 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t4729.t2.t18))
% 32.29/32.50 (step t4729.t2.t20 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t4729.t2.a5))
% 32.29/32.50 (step t4729.t2.t21 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.50 (step t4729.t2.t22 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t4729.t2.t20 t4729.t2.t21))
% 32.29/32.50 (step t4729.t2.t23 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t4729.t2.a4))
% 32.29/32.50 (step t4729.t2.t24 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4729.t2.t23))
% 32.29/32.50 (step t4729.t2.t25 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t4729.t2.t24 t4729.t2.a3))
% 32.29/32.50 (step t4729.t2.t26 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t4729.t2.a0 t4729.t2.t25))
% 32.29/32.50 (step t4729.t2.t27 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t4729.t2.a3))
% 32.29/32.50 (step t4729.t2.t28 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t4729.t2.t10 t4729.t2.t27))
% 32.29/32.50 (step t4729.t2.t29 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4729.t2.a2))
% 32.29/32.50 (step t4729.t2.t30 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t4729.t2.t29))
% 32.29/32.50 (step t4729.t2.t31 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t4729.t2.t19 t4729.t2.t22 t4729.t2.t26 t4729.t2.t28 t4729.t2.t30))
% 32.29/32.50 (step t4729.t2.t32 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t4729.t2.t30))
% 32.29/32.50 (step t4729.t2.t33 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t4729.t2.t31 t4729.t2.t32))
% 32.29/32.50 (step t4729.t2.t34 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t4729.t2.t33 t4729.t2.t13))
% 32.29/32.50 (step t4729.t2.t35 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t4729.t2.a1))
% 32.29/32.50 (step t4729.t2.t36 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t4729.t2.t17 t4729.t2.t34 t4729.t2.t35))
% 32.29/32.50 (step t4729.t2.t37 (cl (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule cong :premises (t4729.t2.a0 t4729.t2.t36))
% 32.29/32.50 (step t4729.t2.t38 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule trans :premises (t4729.t2.t9 t4729.t2.t10 t4729.t2.t12 t4729.t2.t15 t4729.t2.t37))
% 32.29/32.50 (step t4729.t2 (cl (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t4729.t2.a0 t4729.t2.a1 t4729.t2.a2 t4729.t2.a3 t4729.t2.a4 t4729.t2.a5 t4729.t2.a6 t4729.t2.a7 t4729.t2.a8 t4729.t2.a9 t4729.t2.a10 t4729.t2.a11))
% 32.29/32.50 (step t4729.t3 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4729.t4 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4729.t5 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.50 (step t4729.t6 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4729.t7 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4729.t8 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4729.t9 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4729.t10 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4729.t11 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4729.t12 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4729.t13 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4729.t14 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4729.t15 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4729.t2 t4729.t3 t4729.t4 t4729.t5 t4729.t6 t4729.t7 t4729.t8 t4729.t9 t4729.t10 t4729.t11 t4729.t12 t4729.t13 t4729.t14))
% 32.29/32.50 (step t4729.t16 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule reordering :premises (t4729.t15))
% 32.29/32.50 (step t4729.t17 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule contraction :premises (t4729.t16))
% 32.29/32.50 (step t4729.t18 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4729.t1 t4729.t17))
% 32.29/32.50 (step t4729.t19 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4729.t20 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))))) :rule resolution :premises (t4729.t18 t4729.t19))
% 32.29/32.50 (step t4729.t21 (cl (=> (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))))) :rule contraction :premises (t4729.t20))
% 32.29/32.50 (step t4729.t22 (cl (not (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule implies :premises (t4729.t21))
% 32.29/32.50 (step t4729.t23 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4729.t24 (cl (and (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4729.t23 t4729.a9 t4729.a2 t4729.a11 t4729.a10 t4729.a6 t4729.a1 t4729.a0 t4729.a5 t4729.a8 t4729.a7 t4729.a3 t4729.a4))
% 32.29/32.50 (step t4729.t25 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4729.t22 t4729.t24))
% 32.29/32.50 (step t4729 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t4729.a0 t4729.a1 t4729.a2 t4729.a3 t4729.a4 t4729.a5 t4729.a6 t4729.a7 t4729.a8 t4729.a9 t4729.a10 t4729.a11))
% 32.29/32.50 (step t4730 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4731 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4732 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4733 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4734 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4735 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4736 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.50 (step t4737 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4738 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4739 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4740 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t4741 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.50 (step t4742 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t4729 t4730 t4731 t4732 t4733 t4734 t4735 t4736 t4737 t4738 t4739 t4740 t4741))
% 32.29/32.50 (step t4743 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule reordering :premises (t4742))
% 32.29/32.50 (step t4744 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule contraction :premises (t4743))
% 32.29/32.50 (step t4745 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4728 t4744))
% 32.29/32.50 (step t4746 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4747 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))))) :rule resolution :premises (t4745 t4746))
% 32.29/32.50 (step t4748 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))))) :rule contraction :premises (t4747))
% 32.29/32.50 (step t4749 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule implies :premises (t4748))
% 32.29/32.50 (step t4750 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12)))) :rule resolution :premises (t4727 t4749))
% 32.29/32.50 (step t4751 (cl (= (tptp.h2 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t4750))
% 32.29/32.50 (step t4752 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t4753 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4754)
% 32.29/32.50 (assume t4754.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4754.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (assume t4754.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4754.a3 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.50 (assume t4754.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4754.a5 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.50 (assume t4754.a6 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (step t4754.t1 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4754.t2)
% 32.29/32.50 (assume t4754.t2.a0 (= tptp.e24 (tptp.h5 tptp.e14)))
% 32.29/32.50 (assume t4754.t2.a1 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.50 (assume t4754.t2.a2 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.50 (assume t4754.t2.a3 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t4754.t2.a4 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.50 (assume t4754.t2.a5 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (assume t4754.t2.a6 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4754.t2.t1 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.50 (step t4754.t2.t2 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4754.t2.a6))
% 32.29/32.50 (step t4754.t2.t3 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t4754.t2.t2))
% 32.29/32.50 (step t4754.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.unit1))) :rule cong :premises (t4754.t2.t1 t4754.t2.t3))
% 32.29/32.50 (step t4754.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t4754.t2.a5))
% 32.29/32.50 (step t4754.t2.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t4754.t2.t5))
% 32.29/32.50 (step t4754.t2.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t4754.t2.t6))
% 32.29/32.50 (step t4754.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule trans :premises (t4754.t2.t4 t4754.t2.t7))
% 32.29/32.50 (step t4754.t2.t9 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.h5 tptp.e14))) :rule cong :premises (t4754.t2.t8))
% 32.29/32.50 (step t4754.t2.t10 (cl (= (tptp.h5 tptp.e14) tptp.e24)) :rule symm :premises (t4754.t2.a0))
% 32.29/32.50 (step t4754.t2.t11 (cl (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24)) :rule symm :premises (t4754.t2.a4))
% 32.29/32.50 (step t4754.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule symm :premises (t4754.t2.t11))
% 32.29/32.50 (step t4754.t2.t13 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.50 (step t4754.t2.t14 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t4754.t2.a3))
% 32.29/32.50 (step t4754.t2.t15 (cl (= (tptp.op2 tptp.e24 tptp.unit2) (tptp.op2 tptp.e24 tptp.e22))) :rule cong :premises (t4754.t2.t13 t4754.t2.t14))
% 32.29/32.50 (step t4754.t2.t16 (cl (= tptp.e24 (tptp.h5 tptp.e14))) :rule symm :premises (t4754.t2.t10))
% 32.29/32.50 (step t4754.t2.t17 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t4754.t2.a2))
% 32.29/32.50 (step t4754.t2.t18 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4754.t2.t17))
% 32.29/32.50 (step t4754.t2.t19 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t4754.t2.a1))
% 32.29/32.50 (step t4754.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t4754.t2.t19))
% 32.29/32.50 (step t4754.t2.t21 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t4754.t2.t18 t4754.t2.t20))
% 32.29/32.50 (step t4754.t2.t22 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule cong :premises (t4754.t2.t16 t4754.t2.t21))
% 32.29/32.50 (step t4754.t2.t23 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule trans :premises (t4754.t2.t9 t4754.t2.t10 t4754.t2.t12 t4754.t2.t15 t4754.t2.t22))
% 32.29/32.50 (step t4754.t2 (cl (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t4754.t2.a0 t4754.t2.a1 t4754.t2.a2 t4754.t2.a3 t4754.t2.a4 t4754.t2.a5 t4754.t2.a6))
% 32.29/32.50 (step t4754.t3 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4754.t4 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4754.t5 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4754.t6 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4754.t7 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4754.t8 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4754.t9 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4754.t10 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4754.t2 t4754.t3 t4754.t4 t4754.t5 t4754.t6 t4754.t7 t4754.t8 t4754.t9))
% 32.29/32.50 (step t4754.t11 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4754.t10))
% 32.29/32.50 (step t4754.t12 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule contraction :premises (t4754.t11))
% 32.29/32.50 (step t4754.t13 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4754.t1 t4754.t12))
% 32.29/32.50 (step t4754.t14 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4754.t15 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4754.t13 t4754.t14))
% 32.29/32.50 (step t4754.t16 (cl (=> (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))))) :rule contraction :premises (t4754.t15))
% 32.29/32.50 (step t4754.t17 (cl (not (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule implies :premises (t4754.t16))
% 32.29/32.50 (step t4754.t18 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4754.t19 (cl (and (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4754.t18 t4754.a5 t4754.a6 t4754.a0 t4754.a4 t4754.a3 t4754.a1 t4754.a2))
% 32.29/32.50 (step t4754.t20 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4754.t17 t4754.t19))
% 32.29/32.50 (step t4754 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t4754.a0 t4754.a1 t4754.a2 t4754.a3 t4754.a4 t4754.a5 t4754.a6))
% 32.29/32.50 (step t4755 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.50 (step t4756 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4757 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4758 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.50 (step t4759 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.50 (step t4760 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= tptp.e24 (tptp.h5 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4761 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4762 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4754 t4755 t4756 t4757 t4758 t4759 t4760 t4761))
% 32.29/32.50 (step t4763 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4762))
% 32.29/32.50 (step t4764 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule contraction :premises (t4763))
% 32.29/32.50 (step t4765 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4753 t4764))
% 32.29/32.50 (step t4766 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4767 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))))) :rule resolution :premises (t4765 t4766))
% 32.29/32.50 (step t4768 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))))) :rule contraction :premises (t4767))
% 32.29/32.50 (step t4769 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.h5 tptp.e14)) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule implies :premises (t4768))
% 32.29/32.50 (step t4770 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12)))) :rule resolution :premises (t4752 t4769))
% 32.29/32.50 (step t4771 (cl (= (tptp.h5 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e14) (tptp.h5 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e24 (tptp.h5 tptp.e14))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))) :rule reordering :premises (t4770))
% 32.29/32.50 (step t4772 (cl (not (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))))) (not (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.50 (step t4773 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule refl)
% 32.29/32.50 (step t4774 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.50 (step t4775 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv1 :premises (t4774))
% 32.29/32.50 (step t4776 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) :rule all_simplify)
% 32.29/32.50 (step t4777 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule refl)
% 32.29/32.50 (step t4778 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.29/32.50 (step t4779 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t4777 t4778))
% 32.29/32.50 (step t4780 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true)) :rule all_simplify)
% 32.29/32.50 (step t4781 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) true)) :rule trans :premises (t4779 t4780))
% 32.29/32.50 (step t4782 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) true)) :rule trans :premises (t4776 t4781))
% 32.29/32.50 (step t4783 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t4775 t4782))
% 32.29/32.50 (step t4784 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule refl)
% 32.29/32.50 (step t4785 (cl (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))))) :rule cong :premises (t1952 t1111 t4773 t1954 t1115 t4783 t4784))
% 32.29/32.50 (step t4786 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule and_neg)
% 32.29/32.50 (step t4787 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4788)
% 32.29/32.50 (assume t4788.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.50 (assume t4788.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.50 (assume t4788.a2 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.50 (assume t4788.a3 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.50 (assume t4788.a4 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4788.a5 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.29/32.50 (step t4788.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4788.t2)
% 32.29/32.50 (assume t4788.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.29/32.50 (assume t4788.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.50 (assume t4788.t2.a2 (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))
% 32.29/32.50 (assume t4788.t2.a3 (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))
% 32.29/32.50 (step t4788.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) false) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.50 (step t4788.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) false)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule equiv1 :premises (t4788.t2.t1))
% 32.29/32.50 (step t4788.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t4788.t2.a1))
% 32.29/32.50 (step t4788.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule symm :premises (t4788.t2.t3))
% 32.29/32.50 (step t4788.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t4788.t2.a3))
% 32.29/32.50 (step t4788.t2.t6 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule symm :premises (t4788.t2.t5))
% 32.29/32.50 (step t4788.t2.t7 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t4788.t2.t6))
% 32.29/32.50 (step t4788.t2.t8 (cl (= (tptp.op1 tptp.e10 tptp.e12) tptp.e10)) :rule symm :premises (t4788.t2.a2))
% 32.29/32.50 (step t4788.t2.t9 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule symm :premises (t4788.t2.t8))
% 32.29/32.50 (step t4788.t2.t10 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) :rule trans :premises (t4788.t2.t7 t4788.t2.t9))
% 32.29/32.50 (step t4788.t2.t11 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule cong :premises (t4788.t2.t4 t4788.t2.t10))
% 32.29/32.50 (step t4788.t2.t12 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.50 (step t4788.t2.t13 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv2 :premises (t4788.t2.t12))
% 32.29/32.50 (step t4788.t2.t14 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule not_not)
% 32.29/32.50 (step t4788.t2.t15 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t4788.t2.t13 t4788.t2.t14))
% 32.29/32.50 (step t4788.t2.t16 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false)) :rule resolution :premises (t4788.t2.t15 t4788.t2.a0))
% 32.29/32.50 (step t4788.t2.t17 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) false)) :rule trans :premises (t4788.t2.t11 t4788.t2.t16))
% 32.29/32.50 (step t4788.t2.t18 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t4788.t2.t2 t4788.t2.t17))
% 32.29/32.50 (step t4788.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule subproof :discharge (t4788.t2.a0 t4788.t2.a1 t4788.t2.a2 t4788.t2.a3))
% 32.29/32.50 (step t4788.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.29/32.50 (step t4788.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4788.t5 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4788.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4788.t7 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t4788.t2 t4788.t3 t4788.t4 t4788.t5 t4788.t6))
% 32.29/32.50 (step t4788.t8 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule reordering :premises (t4788.t7))
% 32.29/32.50 (step t4788.t9 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t4788.t8))
% 32.29/32.50 (step t4788.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t4788.t1 t4788.t9))
% 32.29/32.50 (step t4788.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg2)
% 32.29/32.50 (step t4788.t12 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t4788.t10 t4788.t11))
% 32.29/32.50 (step t4788.t13 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t4788.t12))
% 32.29/32.50 (step t4788.t14 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies :premises (t4788.t13))
% 32.29/32.50 (step t4788.t15 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule and_neg)
% 32.29/32.50 (step t4788.t16 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4788.t17)
% 32.29/32.50 (assume t4788.t17.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4788.t17.a1 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.50 (step t4788.t17.t1 (cl (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10)) :rule symm :premises (t4788.t17.a1))
% 32.29/32.50 (step t4788.t17.t2 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule symm :premises (t4788.t17.t1))
% 32.29/32.50 (step t4788.t17.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.50 (step t4788.t17.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4788.t17.a0))
% 32.29/32.50 (step t4788.t17.t5 (cl (= (tptp.op1 tptp.e10 tptp.unit1) (tptp.op1 tptp.e10 tptp.e12))) :rule cong :premises (t4788.t17.t3 t4788.t17.t4))
% 32.29/32.50 (step t4788.t17.t6 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule trans :premises (t4788.t17.t2 t4788.t17.t5))
% 32.29/32.50 (step t4788.t17 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule subproof :discharge (t4788.t17.a0 t4788.t17.a1))
% 32.29/32.50 (step t4788.t18 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4788.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4788.t20 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule resolution :premises (t4788.t17 t4788.t18 t4788.t19))
% 32.29/32.50 (step t4788.t21 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule reordering :premises (t4788.t20))
% 32.29/32.50 (step t4788.t22 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule contraction :premises (t4788.t21))
% 32.29/32.50 (step t4788.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t4788.t16 t4788.t22))
% 32.29/32.50 (step t4788.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies_neg2)
% 32.29/32.50 (step t4788.t25 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t4788.t23 t4788.t24))
% 32.29/32.50 (step t4788.t26 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t4788.t25))
% 32.29/32.50 (step t4788.t27 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule implies :premises (t4788.t26))
% 32.29/32.50 (step t4788.t28 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule and_neg)
% 32.29/32.50 (step t4788.t29 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule resolution :premises (t4788.t28 t4788.a4 t4788.a3))
% 32.29/32.50 (step t4788.t30 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t4788.t27 t4788.t29))
% 32.29/32.50 (step t4788.t31 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4788.t32)
% 32.29/32.50 (assume t4788.t32.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.50 (assume t4788.t32.a1 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.50 (step t4788.t32.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t4788.t32.a1))
% 32.29/32.50 (step t4788.t32.t2 (cl (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule symm :premises (t4788.t32.t1))
% 32.29/32.50 (step t4788.t32.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t4788.t32.a0))
% 32.29/32.50 (step t4788.t32.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t4788.t32.t3))
% 32.29/32.50 (step t4788.t32.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t4788.t32.t4))
% 32.29/32.50 (step t4788.t32.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.50 (step t4788.t32.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule cong :premises (t4788.t32.t5 t4788.t32.t6))
% 32.29/32.50 (step t4788.t32.t8 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t4788.t32.t2 t4788.t32.t7))
% 32.29/32.50 (step t4788.t32 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule subproof :discharge (t4788.t32.a0 t4788.t32.a1))
% 32.29/32.50 (step t4788.t33 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4788.t34 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4788.t35 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule resolution :premises (t4788.t32 t4788.t33 t4788.t34))
% 32.29/32.50 (step t4788.t36 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule reordering :premises (t4788.t35))
% 32.29/32.50 (step t4788.t37 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule contraction :premises (t4788.t36))
% 32.29/32.50 (step t4788.t38 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t4788.t31 t4788.t37))
% 32.29/32.50 (step t4788.t39 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg2)
% 32.29/32.50 (step t4788.t40 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t4788.t38 t4788.t39))
% 32.29/32.50 (step t4788.t41 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t4788.t40))
% 32.29/32.50 (step t4788.t42 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule implies :premises (t4788.t41))
% 32.29/32.50 (step t4788.t43 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule and_neg)
% 32.29/32.50 (step t4788.t44 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule resolution :premises (t4788.t43 t4788.a1 t4788.a0))
% 32.29/32.50 (step t4788.t45 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t4788.t42 t4788.t44))
% 32.29/32.50 (step t4788.t46 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t4788.t15 t4788.a5 t4788.a2 t4788.t30 t4788.t45))
% 32.29/32.50 (step t4788.t47 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t4788.t14 t4788.t46))
% 32.29/32.50 (step t4788 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule subproof :discharge (t4788.a0 t4788.a1 t4788.a2 t4788.a3 t4788.a4 t4788.a5))
% 32.29/32.50 (step t4789 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4790 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4791 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4792 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4793 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4794 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.29/32.50 (step t4795 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t4788 t4789 t4790 t4791 t4792 t4793 t4794))
% 32.29/32.50 (step t4796 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule reordering :premises (t4795))
% 32.29/32.50 (step t4797 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t4796))
% 32.29/32.50 (step t4798 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t4787 t4797))
% 32.29/32.50 (step t4799 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg2)
% 32.29/32.50 (step t4800 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t4798 t4799))
% 32.29/32.50 (step t4801 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t4800))
% 32.29/32.50 (step t4802 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies :premises (t4801))
% 32.29/32.50 (step t4803 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t4786 t4802))
% 32.29/32.50 (step t4804 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule or_neg)
% 32.29/32.50 (step t4805 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.50 (step t4806 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.50 (step t4807 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule or_neg)
% 32.29/32.50 (step t4808 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.29/32.50 (step t4809 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule or_neg)
% 32.29/32.50 (step t4810 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule or_neg)
% 32.29/32.50 (step t4811 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t4803 t4804 t4805 t4806 t4807 t4808 t4809 t4810))
% 32.29/32.50 (step t4812 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t4811))
% 32.29/32.50 (step t4813 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t4772 t4785 t4812))
% 32.29/32.50 (step t4814 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule or :premises (t4813))
% 32.29/32.50 (step t4815 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule reordering :premises (t4814))
% 32.29/32.50 (step t4816 (cl (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.50 (step t4817 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.50 (step t4818 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.50 (step t4819 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule equiv1 :premises (t4818))
% 32.29/32.50 (step t4820 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))))) :rule all_simplify)
% 32.29/32.50 (step t4821 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule refl)
% 32.29/32.50 (step t4822 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule all_simplify)
% 32.29/32.50 (step t4823 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule cong :premises (t4821 t4822))
% 32.29/32.50 (step t4824 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) true)) :rule all_simplify)
% 32.29/32.50 (step t4825 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) true)) :rule trans :premises (t4823 t4824))
% 32.29/32.50 (step t4826 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) true)) :rule trans :premises (t4820 t4825))
% 32.29/32.50 (step t4827 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t4819 t4826))
% 32.29/32.50 (step t4828 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule refl)
% 32.29/32.50 (step t4829 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))))) :rule cong :premises (t1111 t4773 t1113 t1115 t4827 t4828))
% 32.29/32.50 (step t4830 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule and_neg)
% 32.29/32.50 (step t4831 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4832)
% 32.29/32.50 (assume t4832.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.50 (assume t4832.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.50 (assume t4832.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (assume t4832.a3 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4832.a4 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.29/32.50 (step t4832.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4832.t2)
% 32.29/32.50 (assume t4832.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.29/32.50 (assume t4832.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.50 (assume t4832.t2.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))
% 32.29/32.50 (assume t4832.t2.a3 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.50 (step t4832.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) false) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.50 (step t4832.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) false)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule equiv1 :premises (t4832.t2.t1))
% 32.29/32.50 (step t4832.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t4832.t2.a1))
% 32.29/32.50 (step t4832.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule symm :premises (t4832.t2.t3))
% 32.29/32.50 (step t4832.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t4832.t2.a3))
% 32.29/32.50 (step t4832.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) :rule symm :premises (t4832.t2.a2))
% 32.29/32.50 (step t4832.t2.t7 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t4832.t2.t6))
% 32.29/32.50 (step t4832.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t4832.t2.t5 t4832.t2.t7))
% 32.29/32.50 (step t4832.t2.t9 (cl (= (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule cong :premises (t4832.t2.t4 t4832.t2.t8))
% 32.29/32.50 (step t4832.t2.t10 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.50 (step t4832.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv2 :premises (t4832.t2.t10))
% 32.29/32.50 (step t4832.t2.t12 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule not_not)
% 32.29/32.50 (step t4832.t2.t13 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t4832.t2.t11 t4832.t2.t12))
% 32.29/32.50 (step t4832.t2.t14 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false)) :rule resolution :premises (t4832.t2.t13 t4832.t2.a0))
% 32.29/32.50 (step t4832.t2.t15 (cl (= (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) false)) :rule trans :premises (t4832.t2.t9 t4832.t2.t14))
% 32.29/32.50 (step t4832.t2.t16 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4832.t2.t2 t4832.t2.t15))
% 32.29/32.50 (step t4832.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t4832.t2.a0 t4832.t2.a1 t4832.t2.a2 t4832.t2.a3))
% 32.29/32.50 (step t4832.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.29/32.50 (step t4832.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4832.t5 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4832.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4832.t7 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4832.t2 t4832.t3 t4832.t4 t4832.t5 t4832.t6))
% 32.29/32.50 (step t4832.t8 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t4832.t7))
% 32.29/32.50 (step t4832.t9 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t4832.t8))
% 32.29/32.50 (step t4832.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4832.t1 t4832.t9))
% 32.29/32.50 (step t4832.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.50 (step t4832.t12 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4832.t10 t4832.t11))
% 32.29/32.50 (step t4832.t13 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t4832.t12))
% 32.29/32.50 (step t4832.t14 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t4832.t13))
% 32.29/32.50 (step t4832.t15 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.50 (step t4832.t16 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4832.t17)
% 32.29/32.50 (assume t4832.t17.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4832.t17.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (step t4832.t17.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t4832.t17.a1))
% 32.29/32.50 (step t4832.t17.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t4832.t17.t1))
% 32.29/32.50 (step t4832.t17.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.50 (step t4832.t17.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4832.t17.a0))
% 32.29/32.50 (step t4832.t17.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e12))) :rule cong :premises (t4832.t17.t3 t4832.t17.t4))
% 32.29/32.50 (step t4832.t17.t6 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t4832.t17.t2 t4832.t17.t5))
% 32.29/32.50 (step t4832.t17 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule subproof :discharge (t4832.t17.a0 t4832.t17.a1))
% 32.29/32.50 (step t4832.t18 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4832.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4832.t20 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t4832.t17 t4832.t18 t4832.t19))
% 32.29/32.50 (step t4832.t21 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule reordering :premises (t4832.t20))
% 32.29/32.50 (step t4832.t22 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule contraction :premises (t4832.t21))
% 32.29/32.50 (step t4832.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t4832.t16 t4832.t22))
% 32.29/32.50 (step t4832.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg2)
% 32.29/32.50 (step t4832.t25 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t4832.t23 t4832.t24))
% 32.29/32.50 (step t4832.t26 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t4832.t25))
% 32.29/32.50 (step t4832.t27 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule implies :premises (t4832.t26))
% 32.29/32.50 (step t4832.t28 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.29/32.50 (step t4832.t29 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t4832.t28 t4832.a3 t4832.a2))
% 32.29/32.50 (step t4832.t30 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t4832.t27 t4832.t29))
% 32.29/32.50 (step t4832.t31 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4832.t15 t4832.a4 t4832.a1 t4832.t30 t4832.a0))
% 32.29/32.50 (step t4832.t32 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4832.t14 t4832.t31))
% 32.29/32.50 (step t4832 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t4832.a0 t4832.a1 t4832.a2 t4832.a3 t4832.a4))
% 32.29/32.50 (step t4833 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4834 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4835 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4836 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4837 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.29/32.50 (step t4838 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule resolution :premises (t4832 t4833 t4834 t4835 t4836 t4837))
% 32.29/32.50 (step t4839 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t4838))
% 32.29/32.50 (step t4840 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t4839))
% 32.29/32.50 (step t4841 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4831 t4840))
% 32.29/32.50 (step t4842 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.50 (step t4843 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4841 t4842))
% 32.29/32.50 (step t4844 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t4843))
% 32.29/32.50 (step t4845 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t4844))
% 32.29/32.50 (step t4846 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4830 t4845))
% 32.29/32.50 (step t4847 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.50 (step t4848 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.50 (step t4849 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.29/32.50 (step t4850 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.29/32.50 (step t4851 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule or_neg)
% 32.29/32.50 (step t4852 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.50 (step t4853 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4846 t4847 t4848 t4849 t4850 t4851 t4852))
% 32.29/32.50 (step t4854 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t4853))
% 32.29/32.50 (step t4855 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4817 t4829 t4854))
% 32.29/32.50 (step t4856 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule or :premises (t4855))
% 32.29/32.50 (step t4857 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t4856))
% 32.29/32.50 (step t4858 (cl (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.50 (step t4859 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.50 (step t4860 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule refl)
% 32.29/32.50 (step t4861 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule cong :premises (t1111 t1113 t1114 t1115 t1125 t4860))
% 32.29/32.50 (step t4862 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule and_neg)
% 32.29/32.50 (step t4863 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4864)
% 32.29/32.50 (assume t4864.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.50 (assume t4864.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (assume t4864.a2 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (assume t4864.a3 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4864.a4 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.29/32.50 (step t4864.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4864.t2)
% 32.29/32.50 (assume t4864.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.29/32.50 (assume t4864.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.50 (assume t4864.t2.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))
% 32.29/32.50 (assume t4864.t2.a3 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.50 (step t4864.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) false) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.50 (step t4864.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) false)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule equiv1 :premises (t4864.t2.t1))
% 32.29/32.50 (step t4864.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule symm :premises (t4864.t2.a1))
% 32.29/32.50 (step t4864.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t4864.t2.t3))
% 32.29/32.50 (step t4864.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t4864.t2.a3))
% 32.29/32.50 (step t4864.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) :rule symm :premises (t4864.t2.a2))
% 32.29/32.50 (step t4864.t2.t7 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t4864.t2.t6))
% 32.29/32.50 (step t4864.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t4864.t2.t5 t4864.t2.t7))
% 32.29/32.50 (step t4864.t2.t9 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule cong :premises (t4864.t2.t4 t4864.t2.t8))
% 32.29/32.50 (step t4864.t2.t10 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.50 (step t4864.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv2 :premises (t4864.t2.t10))
% 32.29/32.50 (step t4864.t2.t12 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule not_not)
% 32.29/32.50 (step t4864.t2.t13 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t4864.t2.t11 t4864.t2.t12))
% 32.29/32.50 (step t4864.t2.t14 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false)) :rule resolution :premises (t4864.t2.t13 t4864.t2.a0))
% 32.29/32.50 (step t4864.t2.t15 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) false)) :rule trans :premises (t4864.t2.t9 t4864.t2.t14))
% 32.29/32.50 (step t4864.t2.t16 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4864.t2.t2 t4864.t2.t15))
% 32.29/32.50 (step t4864.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t4864.t2.a0 t4864.t2.a1 t4864.t2.a2 t4864.t2.a3))
% 32.29/32.50 (step t4864.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.29/32.50 (step t4864.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4864.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4864.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4864.t7 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4864.t2 t4864.t3 t4864.t4 t4864.t5 t4864.t6))
% 32.29/32.50 (step t4864.t8 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t4864.t7))
% 32.29/32.50 (step t4864.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t4864.t8))
% 32.29/32.50 (step t4864.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4864.t1 t4864.t9))
% 32.29/32.50 (step t4864.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.50 (step t4864.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4864.t10 t4864.t11))
% 32.29/32.50 (step t4864.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t4864.t12))
% 32.29/32.50 (step t4864.t14 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t4864.t13))
% 32.29/32.50 (step t4864.t15 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.50 (step t4864.t16 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4864.t17)
% 32.29/32.50 (assume t4864.t17.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4864.t17.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (step t4864.t17.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t4864.t17.a1))
% 32.29/32.50 (step t4864.t17.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t4864.t17.t1))
% 32.29/32.50 (step t4864.t17.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.50 (step t4864.t17.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4864.t17.a0))
% 32.29/32.50 (step t4864.t17.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e12))) :rule cong :premises (t4864.t17.t3 t4864.t17.t4))
% 32.29/32.50 (step t4864.t17.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t4864.t17.t2 t4864.t17.t5))
% 32.29/32.50 (step t4864.t17 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule subproof :discharge (t4864.t17.a0 t4864.t17.a1))
% 32.29/32.50 (step t4864.t18 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4864.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4864.t20 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t4864.t17 t4864.t18 t4864.t19))
% 32.29/32.50 (step t4864.t21 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule reordering :premises (t4864.t20))
% 32.29/32.50 (step t4864.t22 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t4864.t21))
% 32.29/32.50 (step t4864.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t4864.t16 t4864.t22))
% 32.29/32.50 (step t4864.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg2)
% 32.29/32.50 (step t4864.t25 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t4864.t23 t4864.t24))
% 32.29/32.50 (step t4864.t26 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t4864.t25))
% 32.29/32.50 (step t4864.t27 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule implies :premises (t4864.t26))
% 32.29/32.50 (step t4864.t28 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.50 (step t4864.t29 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t4864.t28 t4864.a3 t4864.a2))
% 32.29/32.50 (step t4864.t30 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t4864.t27 t4864.t29))
% 32.29/32.50 (step t4864.t31 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4864.t32)
% 32.29/32.50 (assume t4864.t32.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4864.t32.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (step t4864.t32.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t4864.t32.a1))
% 32.29/32.50 (step t4864.t32.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t4864.t32.t1))
% 32.29/32.50 (step t4864.t32.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.50 (step t4864.t32.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4864.t32.a0))
% 32.29/32.50 (step t4864.t32.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e12))) :rule cong :premises (t4864.t32.t3 t4864.t32.t4))
% 32.29/32.50 (step t4864.t32.t6 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t4864.t32.t2 t4864.t32.t5))
% 32.29/32.50 (step t4864.t32 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule subproof :discharge (t4864.t32.a0 t4864.t32.a1))
% 32.29/32.50 (step t4864.t33 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4864.t34 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4864.t35 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t4864.t32 t4864.t33 t4864.t34))
% 32.29/32.50 (step t4864.t36 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule reordering :premises (t4864.t35))
% 32.29/32.50 (step t4864.t37 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule contraction :premises (t4864.t36))
% 32.29/32.50 (step t4864.t38 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t4864.t31 t4864.t37))
% 32.29/32.50 (step t4864.t39 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg2)
% 32.29/32.50 (step t4864.t40 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t4864.t38 t4864.t39))
% 32.29/32.50 (step t4864.t41 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t4864.t40))
% 32.29/32.50 (step t4864.t42 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule implies :premises (t4864.t41))
% 32.29/32.50 (step t4864.t43 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.29/32.50 (step t4864.t44 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t4864.t43 t4864.a3 t4864.a1))
% 32.29/32.50 (step t4864.t45 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t4864.t42 t4864.t44))
% 32.29/32.50 (step t4864.t46 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4864.t15 t4864.a4 t4864.t30 t4864.t45 t4864.a0))
% 32.29/32.50 (step t4864.t47 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4864.t14 t4864.t46))
% 32.29/32.50 (step t4864 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t4864.a0 t4864.a1 t4864.a2 t4864.a3 t4864.a4))
% 32.29/32.50 (step t4865 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4866 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4867 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4868 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4869 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.29/32.50 (step t4870 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule resolution :premises (t4864 t4865 t4866 t4867 t4868 t4869))
% 32.29/32.50 (step t4871 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t4870))
% 32.29/32.50 (step t4872 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t4871))
% 32.29/32.50 (step t4873 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4863 t4872))
% 32.29/32.50 (step t4874 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.50 (step t4875 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4873 t4874))
% 32.29/32.50 (step t4876 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t4875))
% 32.29/32.50 (step t4877 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t4876))
% 32.29/32.50 (step t4878 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t4862 t4877))
% 32.29/32.50 (step t4879 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.50 (step t4880 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.29/32.50 (step t4881 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.50 (step t4882 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.29/32.50 (step t4883 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule or_neg)
% 32.29/32.50 (step t4884 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.50 (step t4885 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4878 t4879 t4880 t4881 t4882 t4883 t4884))
% 32.29/32.50 (step t4886 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t4885))
% 32.29/32.50 (step t4887 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t4859 t4861 t4886))
% 32.29/32.50 (step t4888 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule or :premises (t4887))
% 32.29/32.50 (step t4889 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t4888))
% 32.29/32.50 (step t4890 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.50 (step t4891 (cl (= (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.50 (step t4892 (cl (not (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) :rule equiv1 :premises (t4891))
% 32.29/32.50 (step t4893 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))))) :rule all_simplify)
% 32.29/32.50 (step t4894 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) :rule refl)
% 32.29/32.50 (step t4895 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) :rule all_simplify)
% 32.29/32.50 (step t4896 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) :rule cong :premises (t4894 t4895))
% 32.29/32.50 (step t4897 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) true)) :rule all_simplify)
% 32.29/32.50 (step t4898 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) true)) :rule trans :premises (t4896 t4897))
% 32.29/32.50 (step t4899 (cl (= (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) true)) :rule trans :premises (t4893 t4898))
% 32.29/32.50 (step t4900 (cl (= (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t4892 t4899))
% 32.29/32.50 (step t4901 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule refl)
% 32.29/32.50 (step t4902 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))))) :rule cong :premises (t1113 t1115 t4900 t4901))
% 32.29/32.50 (step t4903 (cl (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) :rule and_neg)
% 32.29/32.50 (step t4904 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4905)
% 32.29/32.50 (assume t4905.a0 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (assume t4905.a1 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4905.a2 (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))
% 32.29/32.50 (step t4905.t1 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4905.t2)
% 32.29/32.50 (assume t4905.t2.a0 (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))
% 32.29/32.50 (assume t4905.t2.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))
% 32.29/32.50 (step t4905.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) false) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.50 (step t4905.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) false)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule equiv1 :premises (t4905.t2.t1))
% 32.29/32.50 (step t4905.t2.t3 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e11)) :rule symm :premises (t4905.t2.a1))
% 32.29/32.50 (step t4905.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t4905.t2.t3))
% 32.29/32.50 (step t4905.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e11 tptp.e11))) :rule refl)
% 32.29/32.50 (step t4905.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) :rule cong :premises (t4905.t2.t4 t4905.t2.t5))
% 32.29/32.50 (step t4905.t2.t7 (cl (= (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) false) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.50 (step t4905.t2.t8 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv2 :premises (t4905.t2.t7))
% 32.29/32.50 (step t4905.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) :rule not_not)
% 32.29/32.50 (step t4905.t2.t10 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) false) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) :rule resolution :premises (t4905.t2.t8 t4905.t2.t9))
% 32.29/32.50 (step t4905.t2.t11 (cl (= (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) false)) :rule resolution :premises (t4905.t2.t10 t4905.t2.a0))
% 32.29/32.50 (step t4905.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) false)) :rule trans :premises (t4905.t2.t6 t4905.t2.t11))
% 32.29/32.50 (step t4905.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t4905.t2.t2 t4905.t2.t12))
% 32.29/32.50 (step t4905.t2 (cl (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t4905.t2.a0 t4905.t2.a1))
% 32.29/32.50 (step t4905.t3 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) :rule and_pos)
% 32.29/32.50 (step t4905.t4 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4905.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t4905.t2 t4905.t3 t4905.t4))
% 32.29/32.50 (step t4905.t6 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t4905.t5))
% 32.29/32.50 (step t4905.t7 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t4905.t6))
% 32.29/32.50 (step t4905.t8 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t4905.t1 t4905.t7))
% 32.29/32.50 (step t4905.t9 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.50 (step t4905.t10 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t4905.t8 t4905.t9))
% 32.29/32.50 (step t4905.t11 (cl (=> (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t4905.t10))
% 32.29/32.50 (step t4905.t12 (cl (not (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t4905.t11))
% 32.29/32.50 (step t4905.t13 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t4905.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4905.t15)
% 32.29/32.50 (assume t4905.t15.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4905.t15.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.50 (step t4905.t15.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t4905.t15.a1))
% 32.29/32.50 (step t4905.t15.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t4905.t15.t1))
% 32.29/32.50 (step t4905.t15.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.50 (step t4905.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4905.t15.a0))
% 32.29/32.50 (step t4905.t15.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e12))) :rule cong :premises (t4905.t15.t3 t4905.t15.t4))
% 32.29/32.50 (step t4905.t15.t6 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t4905.t15.t2 t4905.t15.t5))
% 32.29/32.50 (step t4905.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule subproof :discharge (t4905.t15.a0 t4905.t15.a1))
% 32.29/32.50 (step t4905.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4905.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4905.t18 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t4905.t15 t4905.t16 t4905.t17))
% 32.29/32.50 (step t4905.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule reordering :premises (t4905.t18))
% 32.29/32.50 (step t4905.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule contraction :premises (t4905.t19))
% 32.29/32.50 (step t4905.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t4905.t14 t4905.t20))
% 32.29/32.50 (step t4905.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg2)
% 32.29/32.50 (step t4905.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t4905.t21 t4905.t22))
% 32.29/32.50 (step t4905.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t4905.t23))
% 32.29/32.50 (step t4905.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule implies :premises (t4905.t24))
% 32.29/32.50 (step t4905.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.29/32.50 (step t4905.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t4905.t26 t4905.a1 t4905.a0))
% 32.29/32.50 (step t4905.t28 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t4905.t25 t4905.t27))
% 32.29/32.50 (step t4905.t29 (cl (and (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t4905.t13 t4905.a2 t4905.t28))
% 32.29/32.50 (step t4905.t30 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t4905.t12 t4905.t29))
% 32.29/32.50 (step t4905 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t4905.a0 t4905.a1 t4905.a2))
% 32.29/32.50 (step t4906 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4907 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4908 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) :rule and_pos)
% 32.29/32.50 (step t4909 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))))) :rule resolution :premises (t4905 t4906 t4907 t4908))
% 32.29/32.50 (step t4910 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t4909))
% 32.29/32.50 (step t4911 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t4910))
% 32.29/32.50 (step t4912 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t4904 t4911))
% 32.29/32.50 (step t4913 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.50 (step t4914 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t4912 t4913))
% 32.29/32.50 (step t4915 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t4914))
% 32.29/32.50 (step t4916 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11))))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t4915))
% 32.29/32.50 (step t4917 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t4903 t4916))
% 32.29/32.50 (step t4918 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.29/32.50 (step t4919 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.29/32.50 (step t4920 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))))) :rule or_neg)
% 32.29/32.50 (step t4921 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.29/32.50 (step t4922 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t4917 t4918 t4919 t4920 t4921))
% 32.29/32.50 (step t4923 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t4922))
% 32.29/32.50 (step t4924 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t4890 t4902 t4923))
% 32.29/32.50 (step t4925 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule or :premises (t4924))
% 32.29/32.50 (step t4926 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t4925))
% 32.29/32.50 (step t4927 (cl (not (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e11)))) :rule and :premises (t1360))
% 32.29/32.50 (step t4928 (cl (not (= (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))))) (not (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.50 (step t4929 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule refl)
% 32.29/32.50 (step t4930 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule refl)
% 32.29/32.50 (step t4931 (cl (= (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))))) :rule cong :premises (t3446 t4929 t1115 t4930))
% 32.29/32.50 (step t4932 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4933 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4934)
% 32.29/32.50 (assume t4934.a0 (not (= tptp.e10 tptp.e12)))
% 32.29/32.50 (assume t4934.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.50 (assume t4934.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4934.t1 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4934.t2)
% 32.29/32.50 (assume t4934.t2.a0 (not (= tptp.e10 tptp.e12)))
% 32.29/32.50 (assume t4934.t2.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))
% 32.29/32.50 (step t4934.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) false) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.50 (step t4934.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) false)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule equiv1 :premises (t4934.t2.t1))
% 32.29/32.50 (step t4934.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.50 (step t4934.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12)) :rule symm :premises (t4934.t2.a1))
% 32.29/32.50 (step t4934.t2.t5 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 tptp.e12))) :rule cong :premises (t4934.t2.t3 t4934.t2.t4))
% 32.29/32.50 (step t4934.t2.t6 (cl (= (= (= tptp.e10 tptp.e12) false) (not (= tptp.e10 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.50 (step t4934.t2.t7 (cl (= (= tptp.e10 tptp.e12) false) (not (not (= tptp.e10 tptp.e12)))) :rule equiv2 :premises (t4934.t2.t6))
% 32.29/32.50 (step t4934.t2.t8 (cl (not (not (not (= tptp.e10 tptp.e12)))) (= tptp.e10 tptp.e12)) :rule not_not)
% 32.29/32.50 (step t4934.t2.t9 (cl (= (= tptp.e10 tptp.e12) false) (= tptp.e10 tptp.e12)) :rule resolution :premises (t4934.t2.t7 t4934.t2.t8))
% 32.29/32.50 (step t4934.t2.t10 (cl (= (= tptp.e10 tptp.e12) false)) :rule resolution :premises (t4934.t2.t9 t4934.t2.a0))
% 32.29/32.50 (step t4934.t2.t11 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) false)) :rule trans :premises (t4934.t2.t5 t4934.t2.t10))
% 32.29/32.50 (step t4934.t2.t12 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4934.t2.t2 t4934.t2.t11))
% 32.29/32.50 (step t4934.t2 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t4934.t2.a0 t4934.t2.a1))
% 32.29/32.50 (step t4934.t3 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4934.t4 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4934.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4934.t2 t4934.t3 t4934.t4))
% 32.29/32.50 (step t4934.t6 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t4934.t5))
% 32.29/32.50 (step t4934.t7 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t4934.t6))
% 32.29/32.50 (step t4934.t8 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4934.t1 t4934.t7))
% 32.29/32.50 (step t4934.t9 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4934.t10 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4934.t8 t4934.t9))
% 32.29/32.50 (step t4934.t11 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t4934.t10))
% 32.29/32.50 (step t4934.t12 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t4934.t11))
% 32.29/32.50 (step t4934.t13 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t4934.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4934.t15)
% 32.29/32.50 (assume t4934.t15.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4934.t15.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.50 (step t4934.t15.t1 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t4934.t15.a1))
% 32.29/32.50 (step t4934.t15.t2 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule symm :premises (t4934.t15.t1))
% 32.29/32.50 (step t4934.t15.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.50 (step t4934.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4934.t15.a0))
% 32.29/32.50 (step t4934.t15.t5 (cl (= (tptp.op1 tptp.e12 tptp.unit1) (tptp.op1 tptp.e12 tptp.e12))) :rule cong :premises (t4934.t15.t3 t4934.t15.t4))
% 32.29/32.50 (step t4934.t15.t6 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule trans :premises (t4934.t15.t2 t4934.t15.t5))
% 32.29/32.50 (step t4934.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule subproof :discharge (t4934.t15.a0 t4934.t15.a1))
% 32.29/32.50 (step t4934.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4934.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4934.t18 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule resolution :premises (t4934.t15 t4934.t16 t4934.t17))
% 32.29/32.50 (step t4934.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule reordering :premises (t4934.t18))
% 32.29/32.50 (step t4934.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule contraction :premises (t4934.t19))
% 32.29/32.50 (step t4934.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule resolution :premises (t4934.t14 t4934.t20))
% 32.29/32.50 (step t4934.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies_neg2)
% 32.29/32.50 (step t4934.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4934.t21 t4934.t22))
% 32.29/32.50 (step t4934.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t4934.t23))
% 32.29/32.50 (step t4934.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule implies :premises (t4934.t24))
% 32.29/32.50 (step t4934.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule and_neg)
% 32.29/32.50 (step t4934.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule resolution :premises (t4934.t26 t4934.a2 t4934.a1))
% 32.29/32.50 (step t4934.t28 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule resolution :premises (t4934.t25 t4934.t27))
% 32.29/32.50 (step t4934.t29 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4934.t13 t4934.a0 t4934.t28))
% 32.29/32.50 (step t4934.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4934.t12 t4934.t29))
% 32.29/32.50 (step t4934 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t4934.a0 t4934.a1 t4934.a2))
% 32.29/32.50 (step t4935 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4936 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4937 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4938 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4934 t4935 t4936 t4937))
% 32.29/32.50 (step t4939 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t4938))
% 32.29/32.50 (step t4940 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t4939))
% 32.29/32.50 (step t4941 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4933 t4940))
% 32.29/32.50 (step t4942 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4943 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4941 t4942))
% 32.29/32.50 (step t4944 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t4943))
% 32.29/32.50 (step t4945 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t4944))
% 32.29/32.50 (step t4946 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4932 t4945))
% 32.29/32.50 (step t4947 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (not (= tptp.e10 tptp.e12))))) :rule or_neg)
% 32.29/32.50 (step t4948 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule or_neg)
% 32.29/32.50 (step t4949 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.29/32.50 (step t4950 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule or_neg)
% 32.29/32.50 (step t4951 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4946 t4947 t4948 t4949 t4950))
% 32.29/32.50 (step t4952 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t4951))
% 32.29/32.50 (step t4953 (cl (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4928 t4931 t4952))
% 32.29/32.50 (step t4954 (cl (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule or :premises (t4953))
% 32.29/32.50 (step t4955 (cl (= tptp.e10 tptp.e12) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t4954))
% 32.29/32.50 (step t4956 (cl (not (= (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))))) (not (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) (or (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.50 (step t4957 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule refl)
% 32.29/32.50 (step t4958 (cl (= (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))))) :rule cong :premises (t3526 t4929 t1115 t4957))
% 32.29/32.50 (step t4959 (cl (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4960 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4961)
% 32.29/32.50 (assume t4961.a0 (not (= tptp.e11 tptp.e12)))
% 32.29/32.50 (assume t4961.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.50 (assume t4961.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4961.t1 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4961.t2)
% 32.29/32.50 (assume t4961.t2.a0 (not (= tptp.e11 tptp.e12)))
% 32.29/32.50 (assume t4961.t2.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))
% 32.29/32.50 (step t4961.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) false) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.50 (step t4961.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) false)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule equiv1 :premises (t4961.t2.t1))
% 32.29/32.50 (step t4961.t2.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.50 (step t4961.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e12) tptp.e12)) :rule symm :premises (t4961.t2.a1))
% 32.29/32.50 (step t4961.t2.t5 (cl (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 tptp.e12))) :rule cong :premises (t4961.t2.t3 t4961.t2.t4))
% 32.29/32.50 (step t4961.t2.t6 (cl (= (= (= tptp.e11 tptp.e12) false) (not (= tptp.e11 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.50 (step t4961.t2.t7 (cl (= (= tptp.e11 tptp.e12) false) (not (not (= tptp.e11 tptp.e12)))) :rule equiv2 :premises (t4961.t2.t6))
% 32.29/32.50 (step t4961.t2.t8 (cl (not (not (not (= tptp.e11 tptp.e12)))) (= tptp.e11 tptp.e12)) :rule not_not)
% 32.29/32.50 (step t4961.t2.t9 (cl (= (= tptp.e11 tptp.e12) false) (= tptp.e11 tptp.e12)) :rule resolution :premises (t4961.t2.t7 t4961.t2.t8))
% 32.29/32.50 (step t4961.t2.t10 (cl (= (= tptp.e11 tptp.e12) false)) :rule resolution :premises (t4961.t2.t9 t4961.t2.a0))
% 32.29/32.50 (step t4961.t2.t11 (cl (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) false)) :rule trans :premises (t4961.t2.t5 t4961.t2.t10))
% 32.29/32.50 (step t4961.t2.t12 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4961.t2.t2 t4961.t2.t11))
% 32.29/32.50 (step t4961.t2 (cl (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t4961.t2.a0 t4961.t2.a1))
% 32.29/32.50 (step t4961.t3 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4961.t4 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4961.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4961.t2 t4961.t3 t4961.t4))
% 32.29/32.50 (step t4961.t6 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t4961.t5))
% 32.29/32.50 (step t4961.t7 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t4961.t6))
% 32.29/32.50 (step t4961.t8 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4961.t1 t4961.t7))
% 32.29/32.50 (step t4961.t9 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4961.t10 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4961.t8 t4961.t9))
% 32.29/32.50 (step t4961.t11 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t4961.t10))
% 32.29/32.50 (step t4961.t12 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t4961.t11))
% 32.29/32.50 (step t4961.t13 (cl (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t4961.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4961.t15)
% 32.29/32.50 (assume t4961.t15.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4961.t15.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.50 (step t4961.t15.t1 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t4961.t15.a1))
% 32.29/32.50 (step t4961.t15.t2 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule symm :premises (t4961.t15.t1))
% 32.29/32.50 (step t4961.t15.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.50 (step t4961.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4961.t15.a0))
% 32.29/32.50 (step t4961.t15.t5 (cl (= (tptp.op1 tptp.e12 tptp.unit1) (tptp.op1 tptp.e12 tptp.e12))) :rule cong :premises (t4961.t15.t3 t4961.t15.t4))
% 32.29/32.50 (step t4961.t15.t6 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule trans :premises (t4961.t15.t2 t4961.t15.t5))
% 32.29/32.50 (step t4961.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule subproof :discharge (t4961.t15.a0 t4961.t15.a1))
% 32.29/32.50 (step t4961.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4961.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4961.t18 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule resolution :premises (t4961.t15 t4961.t16 t4961.t17))
% 32.29/32.50 (step t4961.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule reordering :premises (t4961.t18))
% 32.29/32.50 (step t4961.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule contraction :premises (t4961.t19))
% 32.29/32.50 (step t4961.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule resolution :premises (t4961.t14 t4961.t20))
% 32.29/32.50 (step t4961.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies_neg2)
% 32.29/32.50 (step t4961.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4961.t21 t4961.t22))
% 32.29/32.50 (step t4961.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t4961.t23))
% 32.29/32.50 (step t4961.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule implies :premises (t4961.t24))
% 32.29/32.50 (step t4961.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule and_neg)
% 32.29/32.50 (step t4961.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule resolution :premises (t4961.t26 t4961.a2 t4961.a1))
% 32.29/32.50 (step t4961.t28 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12))) :rule resolution :premises (t4961.t25 t4961.t27))
% 32.29/32.50 (step t4961.t29 (cl (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4961.t13 t4961.a0 t4961.t28))
% 32.29/32.50 (step t4961.t30 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4961.t12 t4961.t29))
% 32.29/32.50 (step t4961 (cl (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t4961.a0 t4961.a1 t4961.a2))
% 32.29/32.50 (step t4962 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4963 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4964 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4965 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4961 t4962 t4963 t4964))
% 32.29/32.50 (step t4966 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t4965))
% 32.29/32.50 (step t4967 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t4966))
% 32.29/32.50 (step t4968 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4960 t4967))
% 32.29/32.50 (step t4969 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4970 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4968 t4969))
% 32.29/32.50 (step t4971 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t4970))
% 32.29/32.50 (step t4972 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t4971))
% 32.29/32.50 (step t4973 (cl (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t4959 t4972))
% 32.29/32.50 (step t4974 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (not (= tptp.e11 tptp.e12))))) :rule or_neg)
% 32.29/32.50 (step t4975 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule or_neg)
% 32.29/32.50 (step t4976 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.29/32.50 (step t4977 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule or_neg)
% 32.29/32.50 (step t4978 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4973 t4974 t4975 t4976 t4977))
% 32.29/32.50 (step t4979 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t4978))
% 32.29/32.50 (step t4980 (cl (or (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t4956 t4958 t4979))
% 32.29/32.50 (step t4981 (cl (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule or :premises (t4980))
% 32.29/32.50 (step t4982 (cl (= tptp.e11 tptp.e12) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t4981))
% 32.29/32.50 (step t4983 (cl (not (= (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (or (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))))) (not (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) (or (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.50 (step t4984 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule refl)
% 32.29/32.50 (step t4985 (cl (= (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (or (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))))) :rule cong :premises (t3707 t1114 t1115 t4984))
% 32.29/32.50 (step t4986 (cl (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.50 (step t4987 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4988)
% 32.29/32.50 (assume t4988.a0 (not (= tptp.e12 tptp.e14)))
% 32.29/32.50 (assume t4988.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (assume t4988.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (step t4988.t1 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4988.t2)
% 32.29/32.50 (assume t4988.t2.a0 (not (= tptp.e12 tptp.e14)))
% 32.29/32.50 (assume t4988.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.50 (step t4988.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) false) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.50 (step t4988.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) false)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule equiv1 :premises (t4988.t2.t1))
% 32.29/32.50 (step t4988.t2.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.50 (step t4988.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule symm :premises (t4988.t2.a1))
% 32.29/32.50 (step t4988.t2.t5 (cl (= (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 tptp.e14))) :rule cong :premises (t4988.t2.t3 t4988.t2.t4))
% 32.29/32.50 (step t4988.t2.t6 (cl (= (= (= tptp.e12 tptp.e14) false) (not (= tptp.e12 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.50 (step t4988.t2.t7 (cl (= (= tptp.e12 tptp.e14) false) (not (not (= tptp.e12 tptp.e14)))) :rule equiv2 :premises (t4988.t2.t6))
% 32.29/32.50 (step t4988.t2.t8 (cl (not (not (not (= tptp.e12 tptp.e14)))) (= tptp.e12 tptp.e14)) :rule not_not)
% 32.29/32.50 (step t4988.t2.t9 (cl (= (= tptp.e12 tptp.e14) false) (= tptp.e12 tptp.e14)) :rule resolution :premises (t4988.t2.t7 t4988.t2.t8))
% 32.29/32.50 (step t4988.t2.t10 (cl (= (= tptp.e12 tptp.e14) false)) :rule resolution :premises (t4988.t2.t9 t4988.t2.a0))
% 32.29/32.50 (step t4988.t2.t11 (cl (= (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) false)) :rule trans :premises (t4988.t2.t5 t4988.t2.t10))
% 32.29/32.50 (step t4988.t2.t12 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t4988.t2.t2 t4988.t2.t11))
% 32.29/32.50 (step t4988.t2 (cl (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule subproof :discharge (t4988.t2.a0 t4988.t2.a1))
% 32.29/32.50 (step t4988.t3 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e12 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4988.t4 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t4988.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t4988.t2 t4988.t3 t4988.t4))
% 32.29/32.50 (step t4988.t6 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule reordering :premises (t4988.t5))
% 32.29/32.50 (step t4988.t7 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t4988.t6))
% 32.29/32.50 (step t4988.t8 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t4988.t1 t4988.t7))
% 32.29/32.50 (step t4988.t9 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4988.t10 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t4988.t8 t4988.t9))
% 32.29/32.50 (step t4988.t11 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule contraction :premises (t4988.t10))
% 32.29/32.50 (step t4988.t12 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies :premises (t4988.t11))
% 32.29/32.50 (step t4988.t13 (cl (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t4988.t14 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t4988.t15)
% 32.29/32.50 (assume t4988.t15.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t4988.t15.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (step t4988.t15.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t4988.t15.a1))
% 32.29/32.50 (step t4988.t15.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t4988.t15.t1))
% 32.29/32.50 (step t4988.t15.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.50 (step t4988.t15.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t4988.t15.a0))
% 32.29/32.50 (step t4988.t15.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e12))) :rule cong :premises (t4988.t15.t3 t4988.t15.t4))
% 32.29/32.50 (step t4988.t15.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t4988.t15.t2 t4988.t15.t5))
% 32.29/32.50 (step t4988.t15 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule subproof :discharge (t4988.t15.a0 t4988.t15.a1))
% 32.29/32.50 (step t4988.t16 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4988.t17 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4988.t18 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t4988.t15 t4988.t16 t4988.t17))
% 32.29/32.50 (step t4988.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule reordering :premises (t4988.t18))
% 32.29/32.50 (step t4988.t20 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t4988.t19))
% 32.29/32.50 (step t4988.t21 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t4988.t14 t4988.t20))
% 32.29/32.50 (step t4988.t22 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg2)
% 32.29/32.50 (step t4988.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t4988.t21 t4988.t22))
% 32.29/32.50 (step t4988.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t4988.t23))
% 32.29/32.50 (step t4988.t25 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule implies :premises (t4988.t24))
% 32.29/32.50 (step t4988.t26 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.50 (step t4988.t27 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t4988.t26 t4988.a2 t4988.a1))
% 32.29/32.50 (step t4988.t28 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t4988.t25 t4988.t27))
% 32.29/32.50 (step t4988.t29 (cl (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t4988.t13 t4988.a0 t4988.t28))
% 32.29/32.50 (step t4988.t30 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t4988.t12 t4988.t29))
% 32.29/32.50 (step t4988 (cl (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule subproof :discharge (t4988.a0 t4988.a1 t4988.a2))
% 32.29/32.50 (step t4989 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t4990 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t4991 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t4992 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t4988 t4989 t4990 t4991))
% 32.29/32.50 (step t4993 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule reordering :premises (t4992))
% 32.29/32.50 (step t4994 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t4993))
% 32.29/32.50 (step t4995 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t4987 t4994))
% 32.29/32.50 (step t4996 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t4997 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t4995 t4996))
% 32.29/32.50 (step t4998 (cl (=> (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule contraction :premises (t4997))
% 32.29/32.50 (step t4999 (cl (not (and (not (= tptp.e12 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies :premises (t4998))
% 32.29/32.50 (step t5000 (cl (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t4986 t4999))
% 32.29/32.50 (step t5001 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (not (= tptp.e12 tptp.e14))))) :rule or_neg)
% 32.29/32.50 (step t5002 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.50 (step t5003 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.29/32.50 (step t5004 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule or_neg)
% 32.29/32.50 (step t5005 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t5000 t5001 t5002 t5003 t5004))
% 32.29/32.50 (step t5006 (cl (or (not (not (= tptp.e12 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule contraction :premises (t5005))
% 32.29/32.50 (step t5007 (cl (or (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t4983 t4985 t5006))
% 32.29/32.50 (step t5008 (cl (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))) :rule or :premises (t5007))
% 32.29/32.50 (step t5009 (cl (= tptp.e12 tptp.e14) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t5008))
% 32.29/32.50 (step t5010 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.50 (step t5011 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule refl)
% 32.29/32.50 (step t5012 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))))) :rule cong :premises (t1111 t1415 t4773 t1114 t1115 t4125 t5011))
% 32.29/32.50 (step t5013 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule and_neg)
% 32.29/32.50 (step t5014 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t5015)
% 32.29/32.50 (assume t5015.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.50 (assume t5015.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.50 (assume t5015.a2 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.50 (assume t5015.a3 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (assume t5015.a4 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t5015.a5 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))
% 32.29/32.50 (step t5015.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t5015.t2)
% 32.29/32.50 (assume t5015.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))
% 32.29/32.50 (assume t5015.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.50 (assume t5015.t2.a2 (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))
% 32.29/32.50 (assume t5015.t2.a3 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.50 (step t5015.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) false) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.50 (step t5015.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) false)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule equiv1 :premises (t5015.t2.t1))
% 32.29/32.50 (step t5015.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e14)) :rule symm :premises (t5015.t2.a1))
% 32.29/32.50 (step t5015.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t5015.t2.t3))
% 32.29/32.50 (step t5015.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t5015.t2.a3))
% 32.29/32.50 (step t5015.t2.t6 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule symm :premises (t5015.t2.a2))
% 32.29/32.50 (step t5015.t2.t7 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule symm :premises (t5015.t2.t6))
% 32.29/32.50 (step t5015.t2.t8 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t5015.t2.t5 t5015.t2.t7))
% 32.29/32.50 (step t5015.t2.t9 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule cong :premises (t5015.t2.t4 t5015.t2.t8))
% 32.29/32.50 (step t5015.t2.t10 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.50 (step t5015.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv2 :premises (t5015.t2.t10))
% 32.29/32.50 (step t5015.t2.t12 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) :rule not_not)
% 32.29/32.50 (step t5015.t2.t13 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t5015.t2.t11 t5015.t2.t12))
% 32.29/32.50 (step t5015.t2.t14 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) false)) :rule resolution :premises (t5015.t2.t13 t5015.t2.a0))
% 32.29/32.50 (step t5015.t2.t15 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) false)) :rule trans :premises (t5015.t2.t9 t5015.t2.t14))
% 32.29/32.50 (step t5015.t2.t16 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5015.t2.t2 t5015.t2.t15))
% 32.29/32.50 (step t5015.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule subproof :discharge (t5015.t2.a0 t5015.t2.a1 t5015.t2.a2 t5015.t2.a3))
% 32.29/32.50 (step t5015.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule and_pos)
% 32.29/32.50 (step t5015.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t5015.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule and_pos)
% 32.29/32.50 (step t5015.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t5015.t7 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5015.t2 t5015.t3 t5015.t4 t5015.t5 t5015.t6))
% 32.29/32.50 (step t5015.t8 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t5015.t7))
% 32.29/32.50 (step t5015.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5015.t8))
% 32.29/32.50 (step t5015.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5015.t1 t5015.t9))
% 32.29/32.50 (step t5015.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t5015.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5015.t10 t5015.t11))
% 32.29/32.50 (step t5015.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t5015.t12))
% 32.29/32.50 (step t5015.t14 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies :premises (t5015.t13))
% 32.29/32.50 (step t5015.t15 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.50 (step t5015.t16 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t5015.t17)
% 32.29/32.50 (assume t5015.t17.a0 (= tptp.e12 tptp.unit1))
% 32.29/32.50 (assume t5015.t17.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.50 (step t5015.t17.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t5015.t17.a1))
% 32.29/32.50 (step t5015.t17.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t5015.t17.t1))
% 32.29/32.50 (step t5015.t17.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.50 (step t5015.t17.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t5015.t17.a0))
% 32.29/32.50 (step t5015.t17.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e12))) :rule cong :premises (t5015.t17.t3 t5015.t17.t4))
% 32.29/32.50 (step t5015.t17.t6 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t5015.t17.t2 t5015.t17.t5))
% 32.29/32.50 (step t5015.t17 (cl (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule subproof :discharge (t5015.t17.a0 t5015.t17.a1))
% 32.29/32.50 (step t5015.t18 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t5015.t19 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t5015.t20 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t5015.t17 t5015.t18 t5015.t19))
% 32.29/32.50 (step t5015.t21 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule reordering :premises (t5015.t20))
% 32.29/32.50 (step t5015.t22 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t5015.t21))
% 32.29/32.50 (step t5015.t23 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t5015.t16 t5015.t22))
% 32.29/32.50 (step t5015.t24 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg2)
% 32.29/32.50 (step t5015.t25 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t5015.t23 t5015.t24))
% 32.29/32.50 (step t5015.t26 (cl (=> (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t5015.t25))
% 32.29/32.50 (step t5015.t27 (cl (not (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule implies :premises (t5015.t26))
% 32.29/32.50 (step t5015.t28 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.50 (step t5015.t29 (cl (and (= tptp.e12 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t5015.t28 t5015.a4 t5015.a3))
% 32.29/32.50 (step t5015.t30 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t5015.t27 t5015.t29))
% 32.29/32.50 (step t5015.t31 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t5015.t32)
% 32.29/32.50 (assume t5015.t32.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.50 (assume t5015.t32.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.50 (step t5015.t32.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t5015.t32.a1))
% 32.29/32.50 (step t5015.t32.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t5015.t32.t1))
% 32.29/32.50 (step t5015.t32.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.50 (step t5015.t32.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t5015.t32.a0))
% 32.29/32.50 (step t5015.t32.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op1 tptp.e14 tptp.e11))) :rule cong :premises (t5015.t32.t3 t5015.t32.t4))
% 32.29/32.50 (step t5015.t32.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t5015.t32.t2 t5015.t32.t5))
% 32.29/32.50 (step t5015.t32 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule subproof :discharge (t5015.t32.a0 t5015.t32.a1))
% 32.29/32.50 (step t5015.t33 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t5015.t34 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.50 (step t5015.t35 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t5015.t32 t5015.t33 t5015.t34))
% 32.29/32.50 (step t5015.t36 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule reordering :premises (t5015.t35))
% 32.29/32.50 (step t5015.t37 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule contraction :premises (t5015.t36))
% 32.29/32.50 (step t5015.t38 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t5015.t31 t5015.t37))
% 32.29/32.50 (step t5015.t39 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg2)
% 32.29/32.50 (step t5015.t40 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t5015.t38 t5015.t39))
% 32.29/32.50 (step t5015.t41 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t5015.t40))
% 32.29/32.50 (step t5015.t42 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule implies :premises (t5015.t41))
% 32.29/32.50 (step t5015.t43 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.50 (step t5015.t44 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t5015.t43 t5015.a0 t5015.a1))
% 32.29/32.50 (step t5015.t45 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t5015.t42 t5015.t44))
% 32.29/32.50 (step t5015.t46 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5015.t15 t5015.a5 t5015.t30 t5015.t45 t5015.a2))
% 32.29/32.50 (step t5015.t47 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5015.t14 t5015.t46))
% 32.29/32.50 (step t5015 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule subproof :discharge (t5015.a0 t5015.a1 t5015.a2 t5015.a3 t5015.a4 t5015.a5))
% 32.29/32.50 (step t5016 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.50 (step t5017 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.50 (step t5018 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.50 (step t5019 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.50 (step t5020 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.50 (step t5021 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) :rule and_pos)
% 32.29/32.50 (step t5022 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))))) :rule resolution :premises (t5015 t5016 t5017 t5018 t5019 t5020 t5021))
% 32.29/32.50 (step t5023 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t5022))
% 32.29/32.50 (step t5024 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5023))
% 32.29/32.50 (step t5025 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5014 t5024))
% 32.29/32.50 (step t5026 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg2)
% 32.29/32.50 (step t5027 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5025 t5026))
% 32.29/32.50 (step t5028 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t5027))
% 32.29/32.50 (step t5029 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies :premises (t5028))
% 32.29/32.50 (step t5030 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5013 t5029))
% 32.29/32.50 (step t5031 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.50 (step t5032 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.50 (step t5033 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.50 (step t5034 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.50 (step t5035 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e12 tptp.unit1)))) :rule or_neg)
% 32.29/32.50 (step t5036 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))))) :rule or_neg)
% 32.29/32.50 (step t5037 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.50 (step t5038 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5030 t5031 t5032 t5033 t5034 t5035 t5036 t5037))
% 32.29/32.50 (step t5039 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t5038))
% 32.29/32.50 (step t5040 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5010 t5012 t5039))
% 32.29/32.50 (step t5041 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule or :premises (t5040))
% 32.29/32.50 (step t5042 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t5041))
% 32.29/32.50 (step t5043 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.50 (step t5044 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t5045)
% 32.29/32.50 (assume t5045.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t5045.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t5045.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t5045.a3 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.50 (assume t5045.a4 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t5045.a5 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t5045.a6 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.50 (assume t5045.a7 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t5045.a8 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t5045.a9 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t5045.a10 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (step t5045.t1 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.50 (anchor :step t5045.t2)
% 32.29/32.50 (assume t5045.t2.a0 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.50 (assume t5045.t2.a1 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.50 (assume t5045.t2.a2 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.50 (assume t5045.t2.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.50 (assume t5045.t2.a4 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.50 (assume t5045.t2.a5 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.50 (assume t5045.t2.a6 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.50 (assume t5045.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.50 (assume t5045.t2.a8 (= tptp.e22 tptp.unit2))
% 32.29/32.50 (assume t5045.t2.a9 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.50 (assume t5045.t2.a10 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.50 (step t5045.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t5045.t2.a10))
% 32.29/32.50 (step t5045.t2.t2 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.h2 tptp.e13))) :rule cong :premises (t5045.t2.t1))
% 32.29/32.50 (step t5045.t2.t3 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t5045.t2.a0))
% 32.29/32.50 (step t5045.t2.t4 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t5045.t2.t3))
% 32.29/32.50 (step t5045.t2.t5 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t5045.t2.t4))
% 32.29/32.50 (step t5045.t2.t6 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t5045.t2.a1))
% 32.29/32.50 (step t5045.t2.t7 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t5045.t2.a2))
% 32.29/32.50 (step t5045.t2.t8 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t5045.t2.t6 t5045.t2.t7))
% 32.29/32.50 (step t5045.t2.t9 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule symm :premises (t5045.t2.t8))
% 32.29/32.50 (step t5045.t2.t10 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t5045.t2.a3))
% 32.29/32.51 (step t5045.t2.t11 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t5045.t2.t10))
% 32.29/32.51 (step t5045.t2.t12 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t5045.t2.t11 t5045.t2.a2))
% 32.29/32.51 (step t5045.t2.t13 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t5045.t2.a1 t5045.t2.t12))
% 32.29/32.51 (step t5045.t2.t14 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 tptp.e24))) :rule symm :premises (t5045.t2.t13))
% 32.29/32.51 (step t5045.t2.t15 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5045.t2.a4))
% 32.29/32.51 (step t5045.t2.t16 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.51 (step t5045.t2.t17 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t5045.t2.t15 t5045.t2.t16))
% 32.29/32.51 (step t5045.t2.t18 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t5045.t2.t17))
% 32.29/32.51 (step t5045.t2.t19 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t5045.t2.a5))
% 32.29/32.51 (step t5045.t2.t20 (cl (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20)) :rule symm :premises (t5045.t2.a9))
% 32.29/32.51 (step t5045.t2.t21 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule symm :premises (t5045.t2.t20))
% 32.29/32.51 (step t5045.t2.t22 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.51 (step t5045.t2.t23 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t5045.t2.a8))
% 32.29/32.51 (step t5045.t2.t24 (cl (= (tptp.op2 tptp.e20 tptp.unit2) (tptp.op2 tptp.e20 tptp.e22))) :rule cong :premises (t5045.t2.t22 t5045.t2.t23))
% 32.29/32.51 (step t5045.t2.t25 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t5045.t2.t19))
% 32.29/32.51 (step t5045.t2.t26 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t5045.t2.t25 t5045.t2.t17 t5045.t2.t13 t5045.t2.t8 t5045.t2.t4))
% 32.29/32.51 (step t5045.t2.t27 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t5045.t2.a7))
% 32.29/32.51 (step t5045.t2.t28 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t5045.t2.t27))
% 32.29/32.51 (step t5045.t2.t29 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t5045.t2.t26 t5045.t2.t5))
% 32.29/32.51 (step t5045.t2.t30 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.51 (step t5045.t2.t31 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t5045.t2.t29 t5045.t2.t30))
% 32.29/32.51 (step t5045.t2.t32 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t5045.t2.a6))
% 32.29/32.51 (step t5045.t2.t33 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t5045.t2.t28 t5045.t2.t31 t5045.t2.t32))
% 32.29/32.51 (step t5045.t2.t34 (cl (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule cong :premises (t5045.t2.t26 t5045.t2.t33))
% 32.29/32.51 (step t5045.t2.t35 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule trans :premises (t5045.t2.t2 t5045.t2.t5 t5045.t2.t9 t5045.t2.t14 t5045.t2.t18 t5045.t2.t19 t5045.t2.t21 t5045.t2.t24 t5045.t2.t34))
% 32.29/32.51 (step t5045.t2 (cl (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t5045.t2.a0 t5045.t2.a1 t5045.t2.a2 t5045.t2.a3 t5045.t2.a4 t5045.t2.a5 t5045.t2.a6 t5045.t2.a7 t5045.t2.a8 t5045.t2.a9 t5045.t2.a10))
% 32.29/32.51 (step t5045.t3 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5045.t4 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5045.t5 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.51 (step t5045.t6 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5045.t7 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5045.t8 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5045.t9 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5045.t10 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5045.t11 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5045.t12 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5045.t13 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5045.t14 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5045.t2 t5045.t3 t5045.t4 t5045.t5 t5045.t6 t5045.t7 t5045.t8 t5045.t9 t5045.t10 t5045.t11 t5045.t12 t5045.t13))
% 32.29/32.51 (step t5045.t15 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule reordering :premises (t5045.t14))
% 32.29/32.51 (step t5045.t16 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule contraction :premises (t5045.t15))
% 32.29/32.51 (step t5045.t17 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule resolution :premises (t5045.t1 t5045.t16))
% 32.29/32.51 (step t5045.t18 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.51 (step t5045.t19 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))))) :rule resolution :premises (t5045.t17 t5045.t18))
% 32.29/32.51 (step t5045.t20 (cl (=> (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))))) :rule contraction :premises (t5045.t19))
% 32.29/32.51 (step t5045.t21 (cl (not (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule implies :premises (t5045.t20))
% 32.29/32.51 (step t5045.t22 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.51 (step t5045.t23 (cl (and (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5045.t22 t5045.a10 t5045.a8 t5045.a9 t5045.a5 t5045.a1 t5045.a0 t5045.a2 t5045.a4 t5045.a7 t5045.a6 t5045.a3))
% 32.29/32.51 (step t5045.t24 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule resolution :premises (t5045.t21 t5045.t23))
% 32.29/32.51 (step t5045 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule subproof :discharge (t5045.a0 t5045.a1 t5045.a2 t5045.a3 t5045.a4 t5045.a5 t5045.a6 t5045.a7 t5045.a8 t5045.a9 t5045.a10))
% 32.29/32.51 (step t5046 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5047 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5048 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5049 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5050 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5051 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5052 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5053 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5054 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5055 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.51 (step t5056 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5057 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t5045 t5046 t5047 t5048 t5049 t5050 t5051 t5052 t5053 t5054 t5055 t5056))
% 32.29/32.51 (step t5058 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule reordering :premises (t5057))
% 32.29/32.51 (step t5059 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule contraction :premises (t5058))
% 32.29/32.51 (step t5060 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule resolution :premises (t5044 t5059))
% 32.29/32.51 (step t5061 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (not (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))))) :rule implies_neg2)
% 32.29/32.51 (step t5062 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))))) :rule resolution :premises (t5060 t5061))
% 32.29/32.51 (step t5063 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))))) :rule contraction :premises (t5062))
% 32.29/32.51 (step t5064 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule implies :premises (t5063))
% 32.29/32.51 (step t5065 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12)))) :rule resolution :premises (t5043 t5064))
% 32.29/32.51 (step t5066 (cl (= (tptp.h2 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h2 tptp.e13) (tptp.h2 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t5065))
% 32.29/32.51 (step t5067 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule and_neg)
% 32.29/32.51 (step t5068 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5069)
% 32.29/32.51 (assume t5069.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.51 (assume t5069.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.51 (assume t5069.a2 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (assume t5069.a3 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.51 (assume t5069.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (assume t5069.a5 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.51 (assume t5069.a6 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.51 (step t5069.t1 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5069.t2)
% 32.29/32.51 (assume t5069.t2.a0 (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))
% 32.29/32.51 (assume t5069.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.51 (assume t5069.t2.a2 (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)))
% 32.29/32.51 (assume t5069.t2.a3 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.51 (assume t5069.t2.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (assume t5069.t2.a5 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.51 (assume t5069.t2.a6 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (step t5069.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t5069.t2.a6))
% 32.29/32.51 (step t5069.t2.t2 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.h5 tptp.e13))) :rule cong :premises (t5069.t2.t1))
% 32.29/32.51 (step t5069.t2.t3 (cl (= (tptp.h5 tptp.e13) (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t5069.t2.a0))
% 32.29/32.51 (step t5069.t2.t4 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t5069.t2.a1))
% 32.29/32.51 (step t5069.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23)) :rule symm :premises (t5069.t2.a5))
% 32.29/32.51 (step t5069.t2.t6 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule symm :premises (t5069.t2.t5))
% 32.29/32.51 (step t5069.t2.t7 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.51 (step t5069.t2.t8 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t5069.t2.a4))
% 32.29/32.51 (step t5069.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.unit2) (tptp.op2 tptp.e23 tptp.e22))) :rule cong :premises (t5069.t2.t7 t5069.t2.t8))
% 32.29/32.51 (step t5069.t2.t10 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t5069.t2.t4))
% 32.29/32.51 (step t5069.t2.t11 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule symm :premises (t5069.t2.t3))
% 32.29/32.51 (step t5069.t2.t12 (cl (= tptp.e23 (tptp.h5 tptp.e13))) :rule trans :premises (t5069.t2.t10 t5069.t2.t11))
% 32.29/32.51 (step t5069.t2.t13 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t5069.t2.a3))
% 32.29/32.51 (step t5069.t2.t14 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t5069.t2.t13))
% 32.29/32.51 (step t5069.t2.t15 (cl (= (tptp.h5 tptp.e12) (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t5069.t2.a2))
% 32.29/32.51 (step t5069.t2.t16 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule symm :premises (t5069.t2.t15))
% 32.29/32.51 (step t5069.t2.t17 (cl (= tptp.e22 (tptp.h5 tptp.e12))) :rule trans :premises (t5069.t2.t14 t5069.t2.t16))
% 32.29/32.51 (step t5069.t2.t18 (cl (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule cong :premises (t5069.t2.t12 t5069.t2.t17))
% 32.29/32.51 (step t5069.t2.t19 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule trans :premises (t5069.t2.t2 t5069.t2.t3 t5069.t2.t4 t5069.t2.t6 t5069.t2.t9 t5069.t2.t18))
% 32.29/32.51 (step t5069.t2 (cl (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t5069.t2.a0 t5069.t2.a1 t5069.t2.a2 t5069.t2.a3 t5069.t2.a4 t5069.t2.a5 t5069.t2.a6))
% 32.29/32.51 (step t5069.t3 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5069.t4 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5069.t5 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5069.t6 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5069.t7 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5069.t8 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5069.t9 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5069.t10 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5069.t2 t5069.t3 t5069.t4 t5069.t5 t5069.t6 t5069.t7 t5069.t8 t5069.t9))
% 32.29/32.51 (step t5069.t11 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule reordering :premises (t5069.t10))
% 32.29/32.51 (step t5069.t12 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule contraction :premises (t5069.t11))
% 32.29/32.51 (step t5069.t13 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule resolution :premises (t5069.t1 t5069.t12))
% 32.29/32.51 (step t5069.t14 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.51 (step t5069.t15 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))))) :rule resolution :premises (t5069.t13 t5069.t14))
% 32.29/32.51 (step t5069.t16 (cl (=> (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))))) :rule contraction :premises (t5069.t15))
% 32.29/32.51 (step t5069.t17 (cl (not (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule implies :premises (t5069.t16))
% 32.29/32.51 (step t5069.t18 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.51 (step t5069.t19 (cl (and (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5069.t18 t5069.a6 t5069.a1 t5069.a5 t5069.a0 t5069.a4 t5069.a3 t5069.a2))
% 32.29/32.51 (step t5069.t20 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule resolution :premises (t5069.t17 t5069.t19))
% 32.29/32.51 (step t5069 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule subproof :discharge (t5069.a0 t5069.a1 t5069.a2 t5069.a3 t5069.a4 t5069.a5 t5069.a6))
% 32.29/32.51 (step t5070 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5071 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5072 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5073 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5074 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5075 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5076 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5077 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))))) :rule resolution :premises (t5069 t5070 t5071 t5072 t5073 t5074 t5075 t5076))
% 32.29/32.51 (step t5078 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule reordering :premises (t5077))
% 32.29/32.51 (step t5079 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule contraction :premises (t5078))
% 32.29/32.51 (step t5080 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule resolution :premises (t5068 t5079))
% 32.29/32.51 (step t5081 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (not (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))))) :rule implies_neg2)
% 32.29/32.51 (step t5082 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))))) :rule resolution :premises (t5080 t5081))
% 32.29/32.51 (step t5083 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))))) :rule contraction :premises (t5082))
% 32.29/32.51 (step t5084 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12)) (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule implies :premises (t5083))
% 32.29/32.51 (step t5085 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13))) (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12)))) :rule resolution :premises (t5067 t5084))
% 32.29/32.51 (step t5086 (cl (= (tptp.h5 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h5 tptp.e13) (tptp.h5 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.h5 tptp.e12))) (not (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.h5 tptp.e13)))) :rule reordering :premises (t5085))
% 32.29/32.51 (step t5087 (cl (not (= (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))))) (not (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.51 (step t5088 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule refl)
% 32.29/32.51 (step t5089 (cl (= (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))))) :rule cong :premises (t4773 t4827 t5088))
% 32.29/32.51 (step t5090 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule and_neg)
% 32.29/32.51 (step t5091 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5092)
% 32.29/32.51 (assume t5092.a0 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (assume t5092.a1 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.29/32.51 (step t5092.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5092.t2)
% 32.29/32.51 (assume t5092.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))
% 32.29/32.51 (assume t5092.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (step t5092.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) false) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.51 (step t5092.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) false)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule equiv1 :premises (t5092.t2.t1))
% 32.29/32.51 (step t5092.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t5092.t2.a1))
% 32.29/32.51 (step t5092.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule symm :premises (t5092.t2.t3))
% 32.29/32.51 (step t5092.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule refl)
% 32.29/32.51 (step t5092.t2.t6 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule cong :premises (t5092.t2.t4 t5092.t2.t5))
% 32.29/32.51 (step t5092.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.51 (step t5092.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv2 :premises (t5092.t2.t7))
% 32.29/32.51 (step t5092.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule not_not)
% 32.29/32.51 (step t5092.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t5092.t2.t8 t5092.t2.t9))
% 32.29/32.51 (step t5092.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) false)) :rule resolution :premises (t5092.t2.t10 t5092.t2.a0))
% 32.29/32.51 (step t5092.t2.t12 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) false)) :rule trans :premises (t5092.t2.t6 t5092.t2.t11))
% 32.29/32.51 (step t5092.t2.t13 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t5092.t2.t2 t5092.t2.t12))
% 32.29/32.51 (step t5092.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule subproof :discharge (t5092.t2.a0 t5092.t2.a1))
% 32.29/32.51 (step t5092.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.29/32.51 (step t5092.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5092.t5 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5092.t2 t5092.t3 t5092.t4))
% 32.29/32.51 (step t5092.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule reordering :premises (t5092.t5))
% 32.29/32.51 (step t5092.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t5092.t6))
% 32.29/32.51 (step t5092.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t5092.t1 t5092.t7))
% 32.29/32.51 (step t5092.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg2)
% 32.29/32.51 (step t5092.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t5092.t8 t5092.t9))
% 32.29/32.51 (step t5092.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule contraction :premises (t5092.t10))
% 32.29/32.51 (step t5092.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies :premises (t5092.t11))
% 32.29/32.51 (step t5092.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.51 (step t5092.t14 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5092.t13 t5092.a1 t5092.a0))
% 32.29/32.51 (step t5092.t15 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t5092.t12 t5092.t14))
% 32.29/32.51 (step t5092 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule subproof :discharge (t5092.a0 t5092.a1))
% 32.29/32.51 (step t5093 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5094 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and_pos)
% 32.29/32.51 (step t5095 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule resolution :premises (t5092 t5093 t5094))
% 32.29/32.51 (step t5096 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule reordering :premises (t5095))
% 32.29/32.51 (step t5097 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t5096))
% 32.29/32.51 (step t5098 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t5091 t5097))
% 32.29/32.51 (step t5099 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg2)
% 32.29/32.51 (step t5100 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t5098 t5099))
% 32.29/32.51 (step t5101 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule contraction :premises (t5100))
% 32.29/32.51 (step t5102 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies :premises (t5101))
% 32.29/32.51 (step t5103 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t5090 t5102))
% 32.29/32.51 (step t5104 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.51 (step t5105 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))))) :rule or_neg)
% 32.29/32.51 (step t5106 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule or_neg)
% 32.29/32.51 (step t5107 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t5103 t5104 t5105 t5106))
% 32.29/32.51 (step t5108 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule contraction :premises (t5107))
% 32.29/32.51 (step t5109 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t5087 t5089 t5108))
% 32.29/32.51 (step t5110 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule or :premises (t5109))
% 32.29/32.51 (step t5111 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule reordering :premises (t5110))
% 32.29/32.51 (step t5112 (cl (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.51 (step t5113 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5114)
% 32.29/32.51 (assume t5114.a0 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.51 (assume t5114.a1 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.51 (assume t5114.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.51 (step t5114.t1 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5114.t2)
% 32.29/32.51 (assume t5114.t2.a0 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.51 (assume t5114.t2.a1 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.51 (assume t5114.t2.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.51 (step t5114.t2.t1 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t5114.t2.a2))
% 32.29/32.51 (step t5114.t2.t2 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t5114.t2.t1))
% 32.29/32.51 (step t5114.t2.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.51 (step t5114.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.unit1 tptp.e13))) :rule cong :premises (t5114.t2.t2 t5114.t2.t3))
% 32.29/32.51 (step t5114.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13)) :rule symm :premises (t5114.t2.a1))
% 32.29/32.51 (step t5114.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13)) :rule symm :premises (t5114.t2.a0))
% 32.29/32.51 (step t5114.t2.t7 (cl (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) :rule symm :premises (t5114.t2.t6))
% 32.29/32.51 (step t5114.t2.t8 (cl (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule trans :premises (t5114.t2.t4 t5114.t2.t5 t5114.t2.t7))
% 32.29/32.51 (step t5114.t2 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule subproof :discharge (t5114.t2.a0 t5114.t2.a1 t5114.t2.a2))
% 32.29/32.51 (step t5114.t3 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5114.t4 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5114.t5 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5114.t6 (cl (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t5114.t2 t5114.t3 t5114.t4 t5114.t5))
% 32.29/32.51 (step t5114.t7 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule reordering :premises (t5114.t6))
% 32.29/32.51 (step t5114.t8 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule contraction :premises (t5114.t7))
% 32.29/32.51 (step t5114.t9 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule resolution :premises (t5114.t1 t5114.t8))
% 32.29/32.51 (step t5114.t10 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule implies_neg2)
% 32.29/32.51 (step t5114.t11 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t5114.t9 t5114.t10))
% 32.29/32.51 (step t5114.t12 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule contraction :premises (t5114.t11))
% 32.29/32.51 (step t5114.t13 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule implies :premises (t5114.t12))
% 32.29/32.51 (step t5114.t14 (cl (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.51 (step t5114.t15 (cl (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t5114.t14 t5114.a0 t5114.a1 t5114.a2))
% 32.29/32.51 (step t5114.t16 (cl (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule resolution :premises (t5114.t13 t5114.t15))
% 32.29/32.51 (step t5114 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule subproof :discharge (t5114.a0 t5114.a1 t5114.a2))
% 32.29/32.51 (step t5115 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5116 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5117 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5118 (cl (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t5114 t5115 t5116 t5117))
% 32.29/32.51 (step t5119 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule reordering :premises (t5118))
% 32.29/32.51 (step t5120 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule contraction :premises (t5119))
% 32.29/32.51 (step t5121 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule resolution :premises (t5113 t5120))
% 32.29/32.51 (step t5122 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule implies_neg2)
% 32.29/32.51 (step t5123 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t5121 t5122))
% 32.29/32.51 (step t5124 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule contraction :premises (t5123))
% 32.29/32.51 (step t5125 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule implies :premises (t5124))
% 32.29/32.51 (step t5126 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13))) :rule resolution :premises (t5112 t5125))
% 32.29/32.51 (step t5127 (cl (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t5126))
% 32.29/32.51 (step t5128 (cl (not (= (tptp.op1 tptp.e12 tptp.e13) (tptp.op1 tptp.e11 tptp.e13)))) :rule and :premises (t1360))
% 32.29/32.51 (step t5129 (cl (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.51 (step t5130 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5131)
% 32.29/32.51 (assume t5131.a0 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)))
% 32.29/32.51 (assume t5131.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.51 (assume t5131.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.51 (step t5131.t1 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5131.t2)
% 32.29/32.51 (assume t5131.t2.a0 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)))
% 32.29/32.51 (assume t5131.t2.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.51 (assume t5131.t2.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.51 (step t5131.t2.t1 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.51 (step t5131.t2.t2 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t5131.t2.a2))
% 32.29/32.51 (step t5131.t2.t3 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t5131.t2.t2))
% 32.29/32.51 (step t5131.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.unit1))) :rule cong :premises (t5131.t2.t1 t5131.t2.t3))
% 32.29/32.51 (step t5131.t2.t5 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t5131.t2.a1))
% 32.29/32.51 (step t5131.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e12)) :rule symm :premises (t5131.t2.a0))
% 32.29/32.51 (step t5131.t2.t7 (cl (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t5131.t2.t6))
% 32.29/32.51 (step t5131.t2.t8 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t5131.t2.t4 t5131.t2.t5 t5131.t2.t7))
% 32.29/32.51 (step t5131.t2 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule subproof :discharge (t5131.t2.a0 t5131.t2.a1 t5131.t2.a2))
% 32.29/32.51 (step t5131.t3 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5131.t4 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5131.t5 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5131.t6 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t5131.t2 t5131.t3 t5131.t4 t5131.t5))
% 32.29/32.51 (step t5131.t7 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule reordering :premises (t5131.t6))
% 32.29/32.51 (step t5131.t8 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule contraction :premises (t5131.t7))
% 32.29/32.51 (step t5131.t9 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t5131.t1 t5131.t8))
% 32.29/32.51 (step t5131.t10 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg2)
% 32.29/32.51 (step t5131.t11 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t5131.t9 t5131.t10))
% 32.29/32.51 (step t5131.t12 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t5131.t11))
% 32.29/32.51 (step t5131.t13 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule implies :premises (t5131.t12))
% 32.29/32.51 (step t5131.t14 (cl (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.51 (step t5131.t15 (cl (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule resolution :premises (t5131.t14 t5131.a0 t5131.a1 t5131.a2))
% 32.29/32.51 (step t5131.t16 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t5131.t13 t5131.t15))
% 32.29/32.51 (step t5131 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule subproof :discharge (t5131.a0 t5131.a1 t5131.a2))
% 32.29/32.51 (step t5132 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5133 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5134 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5135 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t5131 t5132 t5133 t5134))
% 32.29/32.51 (step t5136 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule reordering :premises (t5135))
% 32.29/32.51 (step t5137 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule contraction :premises (t5136))
% 32.29/32.51 (step t5138 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t5130 t5137))
% 32.29/32.51 (step t5139 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg2)
% 32.29/32.51 (step t5140 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t5138 t5139))
% 32.29/32.51 (step t5141 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t5140))
% 32.29/32.51 (step t5142 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule implies :premises (t5141))
% 32.29/32.51 (step t5143 (cl (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t5129 t5142))
% 32.29/32.51 (step t5144 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t5143))
% 32.29/32.51 (step t5145 (cl (not (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e11 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.51 (step t5146 (cl (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule and_neg)
% 32.29/32.51 (step t5147 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= tptp.e10 tptp.e14)) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5148)
% 32.29/32.51 (assume t5148.a0 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.51 (assume t5148.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.51 (assume t5148.a2 (= tptp.e12 tptp.unit1))
% 32.29/32.51 (step t5148.t1 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e10 tptp.e14)) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5148.t2)
% 32.29/32.51 (assume t5148.t2.a0 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.51 (assume t5148.t2.a1 (= tptp.e12 tptp.unit1))
% 32.29/32.51 (assume t5148.t2.a2 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.51 (step t5148.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) :rule symm :premises (t5148.t2.a2))
% 32.29/32.51 (step t5148.t2.t2 (cl (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t5148.t2.t1))
% 32.29/32.51 (step t5148.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.51 (step t5148.t2.t4 (cl (= tptp.unit1 tptp.e12)) :rule symm :premises (t5148.t2.a1))
% 32.29/32.51 (step t5148.t2.t5 (cl (= tptp.e12 tptp.unit1)) :rule symm :premises (t5148.t2.t4))
% 32.29/32.51 (step t5148.t2.t6 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.unit1))) :rule cong :premises (t5148.t2.t3 t5148.t2.t5))
% 32.29/32.51 (step t5148.t2.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t5148.t2.a0))
% 32.29/32.51 (step t5148.t2.t8 (cl (= tptp.e10 tptp.e14)) :rule trans :premises (t5148.t2.t2 t5148.t2.t6 t5148.t2.t7))
% 32.29/32.51 (step t5148.t2 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e10 tptp.e14)) :rule subproof :discharge (t5148.t2.a0 t5148.t2.a1 t5148.t2.a2))
% 32.29/32.51 (step t5148.t3 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5148.t4 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5148.t5 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5148.t6 (cl (= tptp.e10 tptp.e14) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t5148.t2 t5148.t3 t5148.t4 t5148.t5))
% 32.29/32.51 (step t5148.t7 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 tptp.e14)) :rule reordering :premises (t5148.t6))
% 32.29/32.51 (step t5148.t8 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 tptp.e14)) :rule contraction :premises (t5148.t7))
% 32.29/32.51 (step t5148.t9 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e10 tptp.e14)) (= tptp.e10 tptp.e14)) :rule resolution :premises (t5148.t1 t5148.t8))
% 32.29/32.51 (step t5148.t10 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e10 tptp.e14)) (not (= tptp.e10 tptp.e14))) :rule implies_neg2)
% 32.29/32.51 (step t5148.t11 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e10 tptp.e14)) (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e10 tptp.e14))) :rule resolution :premises (t5148.t9 t5148.t10))
% 32.29/32.51 (step t5148.t12 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e10 tptp.e14))) :rule contraction :premises (t5148.t11))
% 32.29/32.51 (step t5148.t13 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 tptp.e14)) :rule implies :premises (t5148.t12))
% 32.29/32.51 (step t5148.t14 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule and_neg)
% 32.29/32.51 (step t5148.t15 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t5148.t14 t5148.a1 t5148.a2 t5148.a0))
% 32.29/32.51 (step t5148.t16 (cl (= tptp.e10 tptp.e14)) :rule resolution :premises (t5148.t13 t5148.t15))
% 32.29/32.51 (step t5148 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 tptp.e14)) :rule subproof :discharge (t5148.a0 t5148.a1 t5148.a2))
% 32.29/32.51 (step t5149 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5150 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5151 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e12 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5152 (cl (= tptp.e10 tptp.e14) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)))) :rule resolution :premises (t5148 t5149 t5150 t5151))
% 32.29/32.51 (step t5153 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e10 tptp.e14)) :rule reordering :premises (t5152))
% 32.29/32.51 (step t5154 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e10 tptp.e14)) :rule contraction :premises (t5153))
% 32.29/32.51 (step t5155 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= tptp.e10 tptp.e14)) (= tptp.e10 tptp.e14)) :rule resolution :premises (t5147 t5154))
% 32.29/32.51 (step t5156 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= tptp.e10 tptp.e14)) (not (= tptp.e10 tptp.e14))) :rule implies_neg2)
% 32.29/32.51 (step t5157 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= tptp.e10 tptp.e14)) (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= tptp.e10 tptp.e14))) :rule resolution :premises (t5155 t5156))
% 32.29/32.51 (step t5158 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1)) (= tptp.e10 tptp.e14))) :rule contraction :premises (t5157))
% 32.29/32.51 (step t5159 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e12 tptp.unit1))) (= tptp.e10 tptp.e14)) :rule implies :premises (t5158))
% 32.29/32.51 (step t5160 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1)) (= tptp.e10 tptp.e14)) :rule resolution :premises (t5146 t5159))
% 32.29/32.51 (step t5161 (cl (= tptp.e10 tptp.e14) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e12 tptp.unit1))) :rule reordering :premises (t5160))
% 32.29/32.51 (step t5162 (cl (not (= tptp.e10 tptp.e14))) :rule and :premises (a8))
% 32.29/32.51 (step t5163 (cl (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1)) (not (= tptp.e12 tptp.unit1))) :rule resolution :premises (t4371 t4373 t3888 t4400 t801 t800 t778 t777 t776 t864 t461 t865 t4420 t4266 t4441 t1587 t1565 t1679 t865 t4442 t4266 t4467 t801 t800 t778 t776 t461 t865 t4442 t4468 t4489 t1588 t1587 t864 t1679 t4420 t4468 t4514 t801 t800 t778 t776 t461 t865 t4515 t2193 t4535 t1587 t1564 t1679 t4536 t2193 t4561 t801 t800 t778 t776 t461 t865 t4536 t2312 t4582 t1587 t1566 t1679 t461 t4515 t2312 t4609 t801 t800 t778 t777 t776 t864 t461 t865 t4610 t2311 t4631 t1587 t1565 t1679 t865 t4632 t2311 t4657 t801 t800 t778 t776 t461 t865 t4658 t1382 t4679 t1587 t1566 t1679 t461 t4680 t1382 t4705 t801 t800 t778 t776 t461 t865 t4706 t4707 t4726 t1587 t1679 t4706 t4707 t2887 t2888 t2193 t2153 t2154 t2312 t2269 t2270 t2312 t2705 t2706 t2312 t4751 t801 t800 t778 t776 t461 t865 t4680 t1381 t4771 t1587 t1564 t1679 t4658 t1381 t4815 t767 t768 t4816 t2311 t3160 t3161 t2311 t2076 t2077 t2311 t4857 t767 t4858 t1382 t4889 t767 t1361 t1381 t1382 t2743 t2744 t1382 t4926 t4927 t1382 t4955 t3472 t4707 t4982 t3575 t4707 t5009 t3733 t1381 t2850 t1999 t1381 t5042 t799 t767 t4158 t1381 t5066 t801 t800 t778 t776 t461 t865 t4632 t5086 t1588 t1587 t864 t1679 t4610 t5111 t4858 t5127 t5128 t4468 t5144 t5145 t4707 t5161 t5162 t1381))
% 32.29/32.51 (step t5164 (cl (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5163))
% 32.29/32.51 (step t5165 (cl (not (= (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))))) (not (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.51 (step t5166 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.51 (step t5167 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule equiv1 :premises (t5166))
% 32.29/32.51 (step t5168 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))))) :rule all_simplify)
% 32.29/32.51 (step t5169 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule refl)
% 32.29/32.51 (step t5170 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.29/32.51 (step t5171 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t5169 t5170))
% 32.29/32.51 (step t5172 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) true)) :rule all_simplify)
% 32.29/32.51 (step t5173 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) true)) :rule trans :premises (t5171 t5172))
% 32.29/32.51 (step t5174 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) true)) :rule trans :premises (t5168 t5173))
% 32.29/32.51 (step t5175 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t5167 t5174))
% 32.29/32.51 (step t5176 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule refl)
% 32.29/32.51 (step t5177 (cl (= (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))))) :rule cong :premises (t4773 t5175 t5176))
% 32.29/32.51 (step t5178 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) :rule and_neg)
% 32.29/32.51 (step t5179 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5180)
% 32.29/32.51 (assume t5180.a0 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (assume t5180.a1 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))
% 32.29/32.51 (step t5180.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5180.t2)
% 32.29/32.51 (assume t5180.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))
% 32.29/32.51 (assume t5180.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (step t5180.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) false) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.51 (step t5180.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) false)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule equiv1 :premises (t5180.t2.t1))
% 32.29/32.51 (step t5180.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t5180.t2.a1))
% 32.29/32.51 (step t5180.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule symm :premises (t5180.t2.t3))
% 32.29/32.51 (step t5180.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) :rule refl)
% 32.29/32.51 (step t5180.t2.t6 (cl (= (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule cong :premises (t5180.t2.t4 t5180.t2.t5))
% 32.29/32.51 (step t5180.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) false) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.51 (step t5180.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv2 :premises (t5180.t2.t7))
% 32.29/32.51 (step t5180.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule not_not)
% 32.29/32.51 (step t5180.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) false) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t5180.t2.t8 t5180.t2.t9))
% 32.29/32.51 (step t5180.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) false)) :rule resolution :premises (t5180.t2.t10 t5180.t2.a0))
% 32.29/32.51 (step t5180.t2.t12 (cl (= (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) false)) :rule trans :premises (t5180.t2.t6 t5180.t2.t11))
% 32.29/32.51 (step t5180.t2.t13 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t5180.t2.t2 t5180.t2.t12))
% 32.29/32.51 (step t5180.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t5180.t2.a0 t5180.t2.a1))
% 32.29/32.51 (step t5180.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.29/32.51 (step t5180.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5180.t5 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5180.t2 t5180.t3 t5180.t4))
% 32.29/32.51 (step t5180.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t5180.t5))
% 32.29/32.51 (step t5180.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t5180.t6))
% 32.29/32.51 (step t5180.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t5180.t1 t5180.t7))
% 32.29/32.51 (step t5180.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.29/32.51 (step t5180.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t5180.t8 t5180.t9))
% 32.29/32.51 (step t5180.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t5180.t10))
% 32.29/32.51 (step t5180.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t5180.t11))
% 32.29/32.51 (step t5180.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.51 (step t5180.t14 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5180.t13 t5180.a1 t5180.a0))
% 32.29/32.51 (step t5180.t15 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t5180.t12 t5180.t14))
% 32.29/32.51 (step t5180 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t5180.a0 t5180.a1))
% 32.29/32.51 (step t5181 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5182 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.29/32.51 (step t5183 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))))) :rule resolution :premises (t5180 t5181 t5182))
% 32.29/32.51 (step t5184 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t5183))
% 32.29/32.51 (step t5185 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t5184))
% 32.29/32.51 (step t5186 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t5179 t5185))
% 32.29/32.51 (step t5187 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.29/32.51 (step t5188 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t5186 t5187))
% 32.29/32.51 (step t5189 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t5188))
% 32.29/32.51 (step t5190 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t5189))
% 32.29/32.51 (step t5191 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t5178 t5190))
% 32.29/32.51 (step t5192 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.51 (step t5193 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))))) :rule or_neg)
% 32.29/32.51 (step t5194 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule or_neg)
% 32.29/32.51 (step t5195 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t5191 t5192 t5193 t5194))
% 32.29/32.51 (step t5196 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t5195))
% 32.29/32.51 (step t5197 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t5165 t5177 t5196))
% 32.29/32.51 (step t5198 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule or :premises (t5197))
% 32.29/32.51 (step t5199 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t5198))
% 32.29/32.51 (step t5200 (cl (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule and :premises (t1360))
% 32.29/32.51 (step t5201 (cl (or (= tptp.e10 tptp.unit1) (= tptp.e11 tptp.unit1) (= tptp.e12 tptp.unit1) (= tptp.e13 tptp.unit1) (= tptp.e14 tptp.unit1))) :rule and :premises (t1380))
% 32.29/32.51 (step t5202 (cl (= tptp.e10 tptp.unit1) (= tptp.e11 tptp.unit1) (= tptp.e12 tptp.unit1) (= tptp.e13 tptp.unit1) (= tptp.e14 tptp.unit1)) :rule or :premises (t5201))
% 32.29/32.51 (step t5203 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e11 tptp.unit1))) :rule and_neg)
% 32.29/32.51 (step t5204 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1)) (= tptp.e13 tptp.e14)) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5205)
% 32.29/32.51 (assume t5205.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.51 (assume t5205.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.51 (assume t5205.a2 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.51 (assume t5205.a3 (= tptp.e11 tptp.unit1))
% 32.29/32.51 (step t5205.t1 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 tptp.e14)) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5205.t2)
% 32.29/32.51 (assume t5205.t2.a0 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.51 (assume t5205.t2.a1 (= tptp.e11 tptp.unit1))
% 32.29/32.51 (assume t5205.t2.a2 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.51 (assume t5205.t2.a3 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.51 (step t5205.t2.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t5205.t2.a3))
% 32.29/32.51 (step t5205.t2.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t5205.t2.t1))
% 32.29/32.51 (step t5205.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.51 (step t5205.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t5205.t2.a2))
% 32.29/32.51 (step t5205.t2.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op1 tptp.e14 tptp.e11))) :rule cong :premises (t5205.t2.t3 t5205.t2.t4))
% 32.29/32.51 (step t5205.t2.t6 (cl (= tptp.unit1 tptp.e11)) :rule symm :premises (t5205.t2.a1))
% 32.29/32.51 (step t5205.t2.t7 (cl (= tptp.e11 tptp.unit1)) :rule symm :premises (t5205.t2.t6))
% 32.29/32.51 (step t5205.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 tptp.unit1))) :rule cong :premises (t5205.t2.t3 t5205.t2.t7))
% 32.29/32.51 (step t5205.t2.t9 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t5205.t2.a0))
% 32.29/32.51 (step t5205.t2.t10 (cl (= tptp.e13 tptp.e14)) :rule trans :premises (t5205.t2.t2 t5205.t2.t5 t5205.t2.t8 t5205.t2.t9))
% 32.29/32.51 (step t5205.t2 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e11 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 tptp.e14)) :rule subproof :discharge (t5205.t2.a0 t5205.t2.a1 t5205.t2.a2 t5205.t2.a3))
% 32.29/32.51 (step t5205.t3 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5205.t4 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5205.t5 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5205.t6 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.51 (step t5205.t7 (cl (= tptp.e13 tptp.e14) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t5205.t2 t5205.t3 t5205.t4 t5205.t5 t5205.t6))
% 32.29/32.51 (step t5205.t8 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 tptp.e14)) :rule reordering :premises (t5205.t7))
% 32.29/32.51 (step t5205.t9 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 tptp.e14)) :rule contraction :premises (t5205.t8))
% 32.29/32.51 (step t5205.t10 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 tptp.e14)) (= tptp.e13 tptp.e14)) :rule resolution :premises (t5205.t1 t5205.t9))
% 32.29/32.51 (step t5205.t11 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 tptp.e14)) (not (= tptp.e13 tptp.e14))) :rule implies_neg2)
% 32.29/32.51 (step t5205.t12 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 tptp.e14)) (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 tptp.e14))) :rule resolution :premises (t5205.t10 t5205.t11))
% 32.29/32.51 (step t5205.t13 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 tptp.e14))) :rule contraction :premises (t5205.t12))
% 32.29/32.51 (step t5205.t14 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 tptp.e14)) :rule implies :premises (t5205.t13))
% 32.29/32.51 (step t5205.t15 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e11 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.51 (step t5205.t16 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t5205.t15 t5205.a2 t5205.a3 t5205.a0 t5205.a1))
% 32.29/32.51 (step t5205.t17 (cl (= tptp.e13 tptp.e14)) :rule resolution :premises (t5205.t14 t5205.t16))
% 32.29/32.51 (step t5205 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e11 tptp.unit1)) (= tptp.e13 tptp.e14)) :rule subproof :discharge (t5205.a0 t5205.a1 t5205.a2 t5205.a3))
% 32.29/32.51 (step t5206 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5207 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.51 (step t5208 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5209 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (= tptp.e11 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5210 (cl (= tptp.e13 tptp.e14) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1)))) :rule resolution :premises (t5205 t5206 t5207 t5208 t5209))
% 32.29/32.51 (step t5211 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (= tptp.e13 tptp.e14)) :rule reordering :premises (t5210))
% 32.29/32.51 (step t5212 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (= tptp.e13 tptp.e14)) :rule contraction :premises (t5211))
% 32.29/32.51 (step t5213 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1)) (= tptp.e13 tptp.e14)) (= tptp.e13 tptp.e14)) :rule resolution :premises (t5204 t5212))
% 32.29/32.51 (step t5214 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1)) (= tptp.e13 tptp.e14)) (not (= tptp.e13 tptp.e14))) :rule implies_neg2)
% 32.29/32.51 (step t5215 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1)) (= tptp.e13 tptp.e14)) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1)) (= tptp.e13 tptp.e14))) :rule resolution :premises (t5213 t5214))
% 32.29/32.51 (step t5216 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1)) (= tptp.e13 tptp.e14))) :rule contraction :premises (t5215))
% 32.29/32.51 (step t5217 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e11 tptp.unit1))) (= tptp.e13 tptp.e14)) :rule implies :premises (t5216))
% 32.29/32.51 (step t5218 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e11 tptp.unit1)) (= tptp.e13 tptp.e14)) :rule resolution :premises (t5203 t5217))
% 32.29/32.51 (step t5219 (cl (= tptp.e13 tptp.e14) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e11 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t5218))
% 32.29/32.51 (step t5220 (cl (not (= tptp.e13 tptp.e14))) :rule and :premises (a8))
% 32.29/32.51 (step t5221 (cl (not (= tptp.e11 tptp.unit1))) :rule resolution :premises (t5219 t799 t767 t5220 t1381))
% 32.29/32.51 (step t5222 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e13 tptp.unit1))) :rule and_neg)
% 32.29/32.51 (step t5223 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5224)
% 32.29/32.51 (assume t5224.a0 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (assume t5224.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.51 (assume t5224.a2 (= tptp.e13 tptp.unit1))
% 32.29/32.51 (step t5224.t1 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5224.t2)
% 32.29/32.51 (assume t5224.t2.a0 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (assume t5224.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.51 (assume t5224.t2.a2 (= tptp.e13 tptp.unit1))
% 32.29/32.51 (step t5224.t2.t1 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.51 (step t5224.t2.t2 (cl (= tptp.unit1 tptp.e13)) :rule symm :premises (t5224.t2.a2))
% 32.29/32.51 (step t5224.t2.t3 (cl (= tptp.e13 tptp.unit1)) :rule symm :premises (t5224.t2.t2))
% 32.29/32.51 (step t5224.t2.t4 (cl (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.unit1))) :rule cong :premises (t5224.t2.t1 t5224.t2.t3))
% 32.29/32.51 (step t5224.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t5224.t2.a1))
% 32.29/32.51 (step t5224.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t5224.t2.a0))
% 32.29/32.51 (step t5224.t2.t7 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule symm :premises (t5224.t2.t6))
% 32.29/32.51 (step t5224.t2.t8 (cl (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule trans :premises (t5224.t2.t4 t5224.t2.t5 t5224.t2.t7))
% 32.29/32.51 (step t5224.t2 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule subproof :discharge (t5224.t2.a0 t5224.t2.a1 t5224.t2.a2))
% 32.29/32.51 (step t5224.t3 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5224.t4 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5224.t5 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5224.t6 (cl (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)))) :rule resolution :premises (t5224.t2 t5224.t3 t5224.t4 t5224.t5))
% 32.29/32.51 (step t5224.t7 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule reordering :premises (t5224.t6))
% 32.29/32.51 (step t5224.t8 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule contraction :premises (t5224.t7))
% 32.29/32.51 (step t5224.t9 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule resolution :premises (t5224.t1 t5224.t8))
% 32.29/32.51 (step t5224.t10 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg2)
% 32.29/32.51 (step t5224.t11 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5224.t9 t5224.t10))
% 32.29/32.51 (step t5224.t12 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5224.t11))
% 32.29/32.51 (step t5224.t13 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule implies :premises (t5224.t12))
% 32.29/32.51 (step t5224.t14 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e13 tptp.unit1))) :rule and_neg)
% 32.29/32.51 (step t5224.t15 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) :rule resolution :premises (t5224.t14 t5224.a0 t5224.a1 t5224.a2))
% 32.29/32.51 (step t5224.t16 (cl (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule resolution :premises (t5224.t13 t5224.t15))
% 32.29/32.51 (step t5224 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule subproof :discharge (t5224.a0 t5224.a1 t5224.a2))
% 32.29/32.51 (step t5225 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5226 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5227 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5228 (cl (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)))) :rule resolution :premises (t5224 t5225 t5226 t5227))
% 32.29/32.51 (step t5229 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule reordering :premises (t5228))
% 32.29/32.51 (step t5230 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule contraction :premises (t5229))
% 32.29/32.51 (step t5231 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule resolution :premises (t5223 t5230))
% 32.29/32.51 (step t5232 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg2)
% 32.29/32.51 (step t5233 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5231 t5232))
% 32.29/32.51 (step t5234 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5233))
% 32.29/32.51 (step t5235 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 tptp.unit1))) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule implies :premises (t5234))
% 32.29/32.51 (step t5236 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e13 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12))) :rule resolution :premises (t5222 t5235))
% 32.29/32.51 (step t5237 (cl (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e13 tptp.unit1))) :rule reordering :premises (t5236))
% 32.29/32.51 (step t5238 (cl (not (= (tptp.op1 tptp.e13 tptp.e13) (tptp.op1 tptp.e13 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.51 (step t5239 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and :premises (t1380))
% 32.29/32.51 (step t5240 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.51 (step t5241 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5242)
% 32.29/32.51 (assume t5242.a0 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (assume t5242.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.51 (assume t5242.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.51 (step t5242.t1 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5242.t2)
% 32.29/32.51 (assume t5242.t2.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.51 (assume t5242.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.51 (assume t5242.t2.a2 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (step t5242.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t5242.t2.a2))
% 32.29/32.51 (step t5242.t2.t2 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t5242.t2.a1))
% 32.29/32.51 (step t5242.t2.t3 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule symm :premises (t5242.t2.t2))
% 32.29/32.51 (step t5242.t2.t4 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.51 (step t5242.t2.t5 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t5242.t2.a0))
% 32.29/32.51 (step t5242.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.unit1) (tptp.op1 tptp.e13 tptp.e10))) :rule cong :premises (t5242.t2.t4 t5242.t2.t5))
% 32.29/32.51 (step t5242.t2.t7 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t5242.t2.t1 t5242.t2.t3 t5242.t2.t6))
% 32.29/32.51 (step t5242.t2 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t5242.t2.a0 t5242.t2.a1 t5242.t2.a2))
% 32.29/32.51 (step t5242.t3 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5242.t4 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5242.t5 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5242.t6 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5242.t2 t5242.t3 t5242.t4 t5242.t5))
% 32.29/32.51 (step t5242.t7 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t5242.t6))
% 32.29/32.51 (step t5242.t8 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t5242.t7))
% 32.29/32.51 (step t5242.t9 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t5242.t1 t5242.t8))
% 32.29/32.51 (step t5242.t10 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.51 (step t5242.t11 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t5242.t9 t5242.t10))
% 32.29/32.51 (step t5242.t12 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t5242.t11))
% 32.29/32.51 (step t5242.t13 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t5242.t12))
% 32.29/32.51 (step t5242.t14 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.51 (step t5242.t15 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5242.t14 t5242.a2 t5242.a1 t5242.a0))
% 32.29/32.51 (step t5242.t16 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t5242.t13 t5242.t15))
% 32.29/32.51 (step t5242 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t5242.a0 t5242.a1 t5242.a2))
% 32.29/32.51 (step t5243 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5244 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.51 (step t5245 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.51 (step t5246 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t5242 t5243 t5244 t5245))
% 32.29/32.51 (step t5247 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t5246))
% 32.29/32.51 (step t5248 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t5247))
% 32.29/32.51 (step t5249 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t5241 t5248))
% 32.29/32.51 (step t5250 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.51 (step t5251 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t5249 t5250))
% 32.29/32.51 (step t5252 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t5251))
% 32.29/32.51 (step t5253 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t5252))
% 32.29/32.51 (step t5254 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t5240 t5253))
% 32.29/32.51 (step t5255 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t5254))
% 32.29/32.51 (step t5256 (cl (= tptp.e12 tptp.unit1) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5202 t5221 t1950 t5237 t5238 t5239 t5255 t5200 t5239))
% 32.29/32.51 (step t5257 (cl (= tptp.e12 tptp.unit1) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5256))
% 32.29/32.51 (step t5258 (cl (not (= (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))))) (not (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.51 (step t5259 (cl (= (= (= (not (not (= tptp.e11 tptp.e13))) (= tptp.e11 tptp.e13)) true) (= (not (not (= tptp.e11 tptp.e13))) (= tptp.e11 tptp.e13)))) :rule equiv_simplify)
% 32.29/32.51 (step t5260 (cl (not (= (= (not (not (= tptp.e11 tptp.e13))) (= tptp.e11 tptp.e13)) true)) (= (not (not (= tptp.e11 tptp.e13))) (= tptp.e11 tptp.e13))) :rule equiv1 :premises (t5259))
% 32.29/32.51 (step t5261 (cl (= (= (not (not (= tptp.e11 tptp.e13))) (= tptp.e11 tptp.e13)) (= (= tptp.e11 tptp.e13) (not (not (= tptp.e11 tptp.e13)))))) :rule all_simplify)
% 32.29/32.51 (step t5262 (cl (= (= tptp.e11 tptp.e13) (= tptp.e11 tptp.e13))) :rule refl)
% 32.29/32.51 (step t5263 (cl (= (not (not (= tptp.e11 tptp.e13))) (= tptp.e11 tptp.e13))) :rule all_simplify)
% 32.29/32.51 (step t5264 (cl (= (= (= tptp.e11 tptp.e13) (not (not (= tptp.e11 tptp.e13)))) (= (= tptp.e11 tptp.e13) (= tptp.e11 tptp.e13)))) :rule cong :premises (t5262 t5263))
% 32.29/32.51 (step t5265 (cl (= (= (= tptp.e11 tptp.e13) (= tptp.e11 tptp.e13)) true)) :rule all_simplify)
% 32.29/32.51 (step t5266 (cl (= (= (= tptp.e11 tptp.e13) (not (not (= tptp.e11 tptp.e13)))) true)) :rule trans :premises (t5264 t5265))
% 32.29/32.51 (step t5267 (cl (= (= (not (not (= tptp.e11 tptp.e13))) (= tptp.e11 tptp.e13)) true)) :rule trans :premises (t5261 t5266))
% 32.29/32.51 (step t5268 (cl (= (not (not (= tptp.e11 tptp.e13))) (= tptp.e11 tptp.e13))) :rule resolution :premises (t5260 t5267))
% 32.29/32.51 (step t5269 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule refl)
% 32.29/32.51 (step t5270 (cl (= (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))))) :rule cong :premises (t5268 t4773 t5269))
% 32.29/32.51 (step t5271 (cl (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.51 (step t5272 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5273)
% 32.29/32.51 (assume t5273.a0 (not (= tptp.e11 tptp.e13)))
% 32.29/32.51 (assume t5273.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (step t5273.t1 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5273.t2)
% 32.29/32.51 (assume t5273.t2.a0 (not (= tptp.e11 tptp.e13)))
% 32.29/32.51 (assume t5273.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.51 (step t5273.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) false) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.51 (step t5273.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) false)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule equiv1 :premises (t5273.t2.t1))
% 32.29/32.51 (step t5273.t2.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.51 (step t5273.t2.t4 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e13)) :rule symm :premises (t5273.t2.a1))
% 32.29/32.51 (step t5273.t2.t5 (cl (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 tptp.e13))) :rule cong :premises (t5273.t2.t3 t5273.t2.t4))
% 32.29/32.51 (step t5273.t2.t6 (cl (= (= (= tptp.e11 tptp.e13) false) (not (= tptp.e11 tptp.e13)))) :rule equiv_simplify)
% 32.29/32.51 (step t5273.t2.t7 (cl (= (= tptp.e11 tptp.e13) false) (not (not (= tptp.e11 tptp.e13)))) :rule equiv2 :premises (t5273.t2.t6))
% 32.29/32.51 (step t5273.t2.t8 (cl (not (not (not (= tptp.e11 tptp.e13)))) (= tptp.e11 tptp.e13)) :rule not_not)
% 32.29/32.51 (step t5273.t2.t9 (cl (= (= tptp.e11 tptp.e13) false) (= tptp.e11 tptp.e13)) :rule resolution :premises (t5273.t2.t7 t5273.t2.t8))
% 32.29/32.51 (step t5273.t2.t10 (cl (= (= tptp.e11 tptp.e13) false)) :rule resolution :premises (t5273.t2.t9 t5273.t2.a0))
% 32.29/32.51 (step t5273.t2.t11 (cl (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) false)) :rule trans :premises (t5273.t2.t5 t5273.t2.t10))
% 32.29/32.51 (step t5273.t2.t12 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5273.t2.t2 t5273.t2.t11))
% 32.29/32.51 (step t5273.t2 (cl (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule subproof :discharge (t5273.t2.a0 t5273.t2.a1))
% 32.29/32.51 (step t5273.t3 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5273.t4 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5273.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5273.t2 t5273.t3 t5273.t4))
% 32.29/32.51 (step t5273.t6 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t5273.t5))
% 32.29/32.51 (step t5273.t7 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5273.t6))
% 32.29/32.51 (step t5273.t8 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5273.t1 t5273.t7))
% 32.29/32.51 (step t5273.t9 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg2)
% 32.29/32.51 (step t5273.t10 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5273.t8 t5273.t9))
% 32.29/32.51 (step t5273.t11 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t5273.t10))
% 32.29/32.51 (step t5273.t12 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies :premises (t5273.t11))
% 32.29/32.51 (step t5273.t13 (cl (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.51 (step t5273.t14 (cl (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5273.t13 t5273.a0 t5273.a1))
% 32.29/32.51 (step t5273.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5273.t12 t5273.t14))
% 32.29/32.51 (step t5273 (cl (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule subproof :discharge (t5273.a0 t5273.a1))
% 32.29/32.51 (step t5274 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5275 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.51 (step t5276 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5273 t5274 t5275))
% 32.29/32.51 (step t5277 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t5276))
% 32.29/32.51 (step t5278 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5277))
% 32.29/32.51 (step t5279 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5272 t5278))
% 32.29/32.51 (step t5280 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg2)
% 32.29/32.51 (step t5281 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5279 t5280))
% 32.29/32.51 (step t5282 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t5281))
% 32.29/32.51 (step t5283 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies :premises (t5282))
% 32.29/32.51 (step t5284 (cl (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5271 t5283))
% 32.29/32.51 (step t5285 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (not (= tptp.e11 tptp.e13))))) :rule or_neg)
% 32.29/32.51 (step t5286 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.51 (step t5287 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.51 (step t5288 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5284 t5285 t5286 t5287))
% 32.29/32.51 (step t5289 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t5288))
% 32.29/32.51 (step t5290 (cl (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t5258 t5270 t5289))
% 32.29/32.51 (step t5291 (cl (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule or :premises (t5290))
% 32.29/32.51 (step t5292 (cl (not (= tptp.e11 tptp.e13))) :rule and :premises (a8))
% 32.29/32.51 (step t5293 (cl (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t5164 t5199 t5200 t5257 t5291 t5292))
% 32.29/32.51 (step t5294 (cl (not (or (= tptp.e20 (tptp.h2 tptp.e10)) (= tptp.e20 (tptp.h2 tptp.e11)) (= tptp.e20 (tptp.h2 tptp.e12)) (= tptp.e20 (tptp.h2 tptp.e13)) (= tptp.e20 (tptp.h2 tptp.e14)))) (not (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14)))) (not (or (= tptp.e23 (tptp.h2 tptp.e10)) (= tptp.e23 (tptp.h2 tptp.e11)) (= tptp.e23 (tptp.h2 tptp.e12)) (= tptp.e23 (tptp.h2 tptp.e13)) (= tptp.e23 (tptp.h2 tptp.e14)))) (not (or (= tptp.e24 (tptp.h2 tptp.e10)) (= tptp.e24 (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.h2 tptp.e12)) (= tptp.e24 (tptp.h2 tptp.e13)) (= tptp.e24 (tptp.h2 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5293))
% 32.29/32.51 (step t5295 (cl (or (= tptp.e22 (tptp.h2 tptp.e10)) (= tptp.e22 (tptp.h2 tptp.e11)) (= tptp.e22 (tptp.h2 tptp.e12)) (= tptp.e22 (tptp.h2 tptp.e13)) (= tptp.e22 (tptp.h2 tptp.e14))) (not (= tptp.e22 (tptp.h2 tptp.e12)))) :rule or_neg)
% 32.29/32.51 (step t5296 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule and_neg)
% 32.29/32.51 (step t5297 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e22 (tptp.h2 tptp.e12))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5298)
% 32.29/32.51 (assume t5298.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.51 (assume t5298.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (assume t5298.a2 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.51 (assume t5298.a3 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.51 (assume t5298.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.51 (assume t5298.a5 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.51 (assume t5298.a6 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.51 (assume t5298.a7 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.51 (step t5298.t1 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e22 (tptp.h2 tptp.e12))) (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5298.t2)
% 32.29/32.51 (assume t5298.t2.a0 (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)))
% 32.29/32.51 (assume t5298.t2.a1 (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))
% 32.29/32.51 (assume t5298.t2.a2 (= tptp.e21 (tptp.h2 tptp.e14)))
% 32.29/32.51 (assume t5298.t2.a3 (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)))
% 32.29/32.51 (assume t5298.t2.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.51 (assume t5298.t2.a5 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (assume t5298.t2.a6 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.51 (assume t5298.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.51 (step t5298.t2.t1 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t5298.t2.a7))
% 32.29/32.51 (step t5298.t2.t2 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t5298.t2.t1))
% 32.29/32.51 (step t5298.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t5298.t2.a6))
% 32.29/32.51 (step t5298.t2.t4 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t5298.t2.t3))
% 32.29/32.51 (step t5298.t2.t5 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5298.t2.a5))
% 32.29/32.51 (step t5298.t2.t6 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.51 (step t5298.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t5298.t2.t5 t5298.t2.t6))
% 32.29/32.51 (step t5298.t2.t8 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t5298.t2.a4))
% 32.29/32.51 (step t5298.t2.t9 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t5298.t2.t8))
% 32.29/32.51 (step t5298.t2.t10 (cl (= tptp.e24 (tptp.h2 tptp.e11))) :rule trans :premises (t5298.t2.t9 t5298.t2.a3))
% 32.29/32.51 (step t5298.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)))) :rule cong :premises (t5298.t2.a2 t5298.t2.t10))
% 32.29/32.51 (step t5298.t2.t12 (cl (= (tptp.h2 tptp.e14) tptp.e21)) :rule symm :premises (t5298.t2.a2))
% 32.29/32.51 (step t5298.t2.t13 (cl (= (tptp.h2 tptp.e11) (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t5298.t2.a3))
% 32.29/32.51 (step t5298.t2.t14 (cl (= (tptp.op2 (tptp.h2 tptp.e14) (tptp.h2 tptp.e11)) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t5298.t2.t12 t5298.t2.t13))
% 32.29/32.51 (step t5298.t2.t15 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t5298.t2.a1))
% 32.29/32.51 (step t5298.t2.t16 (cl (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule symm :premises (t5298.t2.t15))
% 32.29/32.51 (step t5298.t2.t17 (cl (= tptp.e20 (tptp.h2 tptp.e13))) :rule trans :premises (t5298.t2.t4 t5298.t2.t7 t5298.t2.t11 t5298.t2.t14 t5298.t2.t16))
% 32.29/32.51 (step t5298.t2.t18 (cl (= (tptp.h2 tptp.e13) (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule symm :premises (t5298.t2.t16))
% 32.29/32.51 (step t5298.t2.t19 (cl (= tptp.e20 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)))) :rule trans :premises (t5298.t2.t17 t5298.t2.t18))
% 32.29/32.51 (step t5298.t2.t20 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.51 (step t5298.t2.t21 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule cong :premises (t5298.t2.t19 t5298.t2.t20))
% 32.29/32.51 (step t5298.t2.t22 (cl (= (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21) (tptp.h2 tptp.e12))) :rule symm :premises (t5298.t2.a0))
% 32.29/32.51 (step t5298.t2.t23 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule trans :premises (t5298.t2.t2 t5298.t2.t21 t5298.t2.t22))
% 32.29/32.51 (step t5298.t2 (cl (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule subproof :discharge (t5298.t2.a0 t5298.t2.a1 t5298.t2.a2 t5298.t2.a3 t5298.t2.a4 t5298.t2.a5 t5298.t2.a6 t5298.t2.a7))
% 32.29/32.51 (step t5298.t3 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5298.t4 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5298.t5 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5298.t6 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.51 (step t5298.t7 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5298.t8 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5298.t9 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5298.t10 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5298.t11 (cl (= tptp.e22 (tptp.h2 tptp.e12)) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t5298.t2 t5298.t3 t5298.t4 t5298.t5 t5298.t6 t5298.t7 t5298.t8 t5298.t9 t5298.t10))
% 32.29/32.51 (step t5298.t12 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule reordering :premises (t5298.t11))
% 32.29/32.51 (step t5298.t13 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule contraction :premises (t5298.t12))
% 32.29/32.51 (step t5298.t14 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e22 (tptp.h2 tptp.e12))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule resolution :premises (t5298.t1 t5298.t13))
% 32.29/32.51 (step t5298.t15 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e22 (tptp.h2 tptp.e12))) (not (= tptp.e22 (tptp.h2 tptp.e12)))) :rule implies_neg2)
% 32.29/32.51 (step t5298.t16 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e22 (tptp.h2 tptp.e12))) (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e22 (tptp.h2 tptp.e12)))) :rule resolution :premises (t5298.t14 t5298.t15))
% 32.29/32.51 (step t5298.t17 (cl (=> (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e22 (tptp.h2 tptp.e12)))) :rule contraction :premises (t5298.t16))
% 32.29/32.51 (step t5298.t18 (cl (not (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule implies :premises (t5298.t17))
% 32.29/32.51 (step t5298.t19 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) :rule and_neg)
% 32.29/32.51 (step t5298.t20 (cl (and (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t5298.t19 t5298.a2 t5298.a7 t5298.a5 t5298.a6 t5298.a4 t5298.a1 t5298.a0 t5298.a3))
% 32.29/32.51 (step t5298.t21 (cl (= tptp.e22 (tptp.h2 tptp.e12))) :rule resolution :premises (t5298.t18 t5298.t20))
% 32.29/32.51 (step t5298 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule subproof :discharge (t5298.a0 t5298.a1 t5298.a2 t5298.a3 t5298.a4 t5298.a5 t5298.a6 t5298.a7))
% 32.29/32.51 (step t5299 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5300 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5301 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5302 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5303 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5304 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e21 (tptp.h2 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5305 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) :rule and_pos)
% 32.29/32.51 (step t5306 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) :rule and_pos)
% 32.29/32.51 (step t5307 (cl (= tptp.e22 (tptp.h2 tptp.e12)) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))))) :rule resolution :premises (t5298 t5299 t5300 t5301 t5302 t5303 t5304 t5305 t5306))
% 32.29/32.51 (step t5308 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule reordering :premises (t5307))
% 32.29/32.51 (step t5309 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule contraction :premises (t5308))
% 32.29/32.51 (step t5310 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e22 (tptp.h2 tptp.e12))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule resolution :premises (t5297 t5309))
% 32.29/32.51 (step t5311 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e22 (tptp.h2 tptp.e12))) (not (= tptp.e22 (tptp.h2 tptp.e12)))) :rule implies_neg2)
% 32.29/32.51 (step t5312 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e22 (tptp.h2 tptp.e12))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e22 (tptp.h2 tptp.e12)))) :rule resolution :premises (t5310 t5311))
% 32.29/32.51 (step t5313 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e22 (tptp.h2 tptp.e12)))) :rule contraction :premises (t5312))
% 32.29/32.51 (step t5314 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.h2 tptp.e14)) (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11)) (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule implies :premises (t5313))
% 32.29/32.51 (step t5315 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13))) (= tptp.e22 (tptp.h2 tptp.e12))) :rule resolution :premises (t5296 t5314))
% 32.29/32.51 (step t5316 (cl (= tptp.e22 (tptp.h2 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.h2 tptp.e14))) (not (= (tptp.op2 tptp.e21 tptp.e21) (tptp.h2 tptp.e11))) (not (= (tptp.h2 tptp.e12) (tptp.op2 (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) tptp.e21))) (not (= (tptp.op2 tptp.e21 (tptp.op2 tptp.e21 tptp.e21)) (tptp.h2 tptp.e13)))) :rule reordering :premises (t5315))
% 32.29/32.51 (step t5317 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t5294 t5295 t3181 t3199 t3165 t5316 t801 t800 t778 t776 t461 t865 t3198 t777 t864 t461 t3218 t801 t778 t776 t461 t865 t3180 t778))
% 32.29/32.51 (step t5318 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t5317))
% 32.29/32.51 (step t5319 (cl (or (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule and :premises (t2369))
% 32.29/32.51 (step t5320 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))) :rule or :premises (t5319))
% 32.29/32.51 (step t5321 (cl (not (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))))) (not (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.51 (step t5322 (cl (= (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true) (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5323 (cl (not (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true)) (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule equiv1 :premises (t5322))
% 32.29/32.51 (step t5324 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) :rule all_simplify)
% 32.29/32.51 (step t5325 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule refl)
% 32.29/32.51 (step t5326 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.29/32.51 (step t5327 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t5325 t5326))
% 32.29/32.51 (step t5328 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true)) :rule all_simplify)
% 32.29/32.51 (step t5329 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) true)) :rule trans :premises (t5327 t5328))
% 32.29/32.51 (step t5330 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true)) :rule trans :premises (t5324 t5329))
% 32.29/32.51 (step t5331 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5323 t5330))
% 32.29/32.51 (step t5332 (cl (= (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule refl)
% 32.29/32.51 (step t5333 (cl (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))))) :rule cong :premises (t2927 t2928 t5331 t5332))
% 32.29/32.51 (step t5334 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule and_neg)
% 32.29/32.51 (step t5335 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5336)
% 32.29/32.51 (assume t5336.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.51 (assume t5336.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.51 (assume t5336.a2 (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))
% 32.29/32.51 (step t5336.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5336.t2)
% 32.29/32.51 (assume t5336.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))
% 32.29/32.51 (assume t5336.t2.a1 (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))
% 32.29/32.51 (step t5336.t2.t1 (cl (= (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) false) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5336.t2.t2 (cl (not (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) false)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule equiv1 :premises (t5336.t2.t1))
% 32.29/32.51 (step t5336.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) :rule symm :premises (t5336.t2.a1))
% 32.29/32.51 (step t5336.t2.t4 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule symm :premises (t5336.t2.t3))
% 32.29/32.51 (step t5336.t2.t5 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule refl)
% 32.29/32.51 (step t5336.t2.t6 (cl (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule cong :premises (t5336.t2.t4 t5336.t2.t5))
% 32.29/32.51 (step t5336.t2.t7 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5336.t2.t8 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv2 :premises (t5336.t2.t7))
% 32.29/32.51 (step t5336.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule not_not)
% 32.29/32.51 (step t5336.t2.t10 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t5336.t2.t8 t5336.t2.t9))
% 32.29/32.51 (step t5336.t2.t11 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false)) :rule resolution :premises (t5336.t2.t10 t5336.t2.a0))
% 32.29/32.51 (step t5336.t2.t12 (cl (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)) false)) :rule trans :premises (t5336.t2.t6 t5336.t2.t11))
% 32.29/32.51 (step t5336.t2.t13 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5336.t2.t2 t5336.t2.t12))
% 32.29/32.51 (step t5336.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule subproof :discharge (t5336.t2.a0 t5336.t2.a1))
% 32.29/32.51 (step t5336.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5336.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5336.t5 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t5336.t2 t5336.t3 t5336.t4))
% 32.29/32.51 (step t5336.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule reordering :premises (t5336.t5))
% 32.29/32.51 (step t5336.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule contraction :premises (t5336.t6))
% 32.29/32.51 (step t5336.t8 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5336.t1 t5336.t7))
% 32.29/32.51 (step t5336.t9 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule implies_neg2)
% 32.29/32.51 (step t5336.t10 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t5336.t8 t5336.t9))
% 32.29/32.51 (step t5336.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule contraction :premises (t5336.t10))
% 32.29/32.51 (step t5336.t12 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies :premises (t5336.t11))
% 32.29/32.51 (step t5336.t13 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule and_neg)
% 32.29/32.51 (step t5336.t14 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5336.t15)
% 32.29/32.51 (assume t5336.t15.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.51 (assume t5336.t15.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.51 (step t5336.t15.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t5336.t15.a1))
% 32.29/32.51 (step t5336.t15.t2 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t5336.t15.t1))
% 32.29/32.51 (step t5336.t15.t3 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t5336.t15.a0))
% 32.29/32.51 (step t5336.t15.t4 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t5336.t15.t3))
% 32.29/32.51 (step t5336.t15.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t5336.t15.t4))
% 32.29/32.51 (step t5336.t15.t6 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.51 (step t5336.t15.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t5336.t15.t5 t5336.t15.t6))
% 32.29/32.51 (step t5336.t15.t8 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule trans :premises (t5336.t15.t2 t5336.t15.t7))
% 32.29/32.51 (step t5336.t15 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule subproof :discharge (t5336.t15.a0 t5336.t15.a1))
% 32.29/32.51 (step t5336.t16 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5336.t17 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5336.t18 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule resolution :premises (t5336.t15 t5336.t16 t5336.t17))
% 32.29/32.51 (step t5336.t19 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule reordering :premises (t5336.t18))
% 32.29/32.51 (step t5336.t20 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule contraction :premises (t5336.t19))
% 32.29/32.51 (step t5336.t21 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t5336.t14 t5336.t20))
% 32.29/32.51 (step t5336.t22 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg2)
% 32.29/32.51 (step t5336.t23 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t5336.t21 t5336.t22))
% 32.29/32.51 (step t5336.t24 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t5336.t23))
% 32.29/32.51 (step t5336.t25 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule implies :premises (t5336.t24))
% 32.29/32.51 (step t5336.t26 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule and_neg)
% 32.29/32.51 (step t5336.t27 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule resolution :premises (t5336.t26 t5336.a1 t5336.a0))
% 32.29/32.51 (step t5336.t28 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t5336.t25 t5336.t27))
% 32.29/32.51 (step t5336.t29 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t5336.t13 t5336.a2 t5336.t28))
% 32.29/32.51 (step t5336.t30 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5336.t12 t5336.t29))
% 32.29/32.51 (step t5336 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule subproof :discharge (t5336.a0 t5336.a1 t5336.a2))
% 32.29/32.51 (step t5337 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5338 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5339 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5340 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule resolution :premises (t5336 t5337 t5338 t5339))
% 32.29/32.51 (step t5341 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule reordering :premises (t5340))
% 32.29/32.51 (step t5342 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule contraction :premises (t5341))
% 32.29/32.51 (step t5343 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5335 t5342))
% 32.29/32.51 (step t5344 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule implies_neg2)
% 32.29/32.51 (step t5345 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t5343 t5344))
% 32.29/32.51 (step t5346 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule contraction :premises (t5345))
% 32.29/32.51 (step t5347 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies :premises (t5346))
% 32.29/32.51 (step t5348 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5334 t5347))
% 32.29/32.51 (step t5349 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5350 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.29/32.51 (step t5351 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule or_neg)
% 32.29/32.51 (step t5352 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5353 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t5348 t5349 t5350 t5351 t5352))
% 32.29/32.51 (step t5354 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule contraction :premises (t5353))
% 32.29/32.51 (step t5355 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t5321 t5333 t5354))
% 32.29/32.51 (step t5356 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule or :premises (t5355))
% 32.29/32.51 (step t5357 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule reordering :premises (t5356))
% 32.29/32.51 (step t5358 (cl (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and :premises (t459))
% 32.29/32.51 (step t5359 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5357 t864 t1679 t5358))
% 32.29/32.51 (step t5360 (cl (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)))) :rule and :premises (t218))
% 32.29/32.51 (step t5361 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21))) :rule or :premises (t5360))
% 32.29/32.51 (step t5362 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.51 (step t5363 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.51 (step t5364 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule equiv1 :premises (t5363))
% 32.29/32.51 (step t5365 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))))) :rule all_simplify)
% 32.29/32.51 (step t5366 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule refl)
% 32.29/32.51 (step t5367 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.29/32.51 (step t5368 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t5366 t5367))
% 32.29/32.51 (step t5369 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true)) :rule all_simplify)
% 32.29/32.51 (step t5370 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) true)) :rule trans :premises (t5368 t5369))
% 32.29/32.51 (step t5371 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true)) :rule trans :premises (t5365 t5370))
% 32.29/32.51 (step t5372 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t5364 t5371))
% 32.29/32.51 (step t5373 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule refl)
% 32.29/32.51 (step t5374 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))))) :rule cong :premises (t222 t2928 t5372 t5373))
% 32.29/32.51 (step t5375 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule and_neg)
% 32.29/32.51 (step t5376 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5377)
% 32.29/32.51 (assume t5377.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (assume t5377.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.51 (assume t5377.a2 (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))
% 32.29/32.51 (step t5377.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5377.t2)
% 32.29/32.51 (assume t5377.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))
% 32.29/32.51 (assume t5377.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))
% 32.29/32.51 (step t5377.t2.t1 (cl (= (= (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) false) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.51 (step t5377.t2.t2 (cl (not (= (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) false)) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule equiv1 :premises (t5377.t2.t1))
% 32.29/32.51 (step t5377.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) :rule symm :premises (t5377.t2.a1))
% 32.29/32.51 (step t5377.t2.t4 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule symm :premises (t5377.t2.t3))
% 32.29/32.51 (step t5377.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule refl)
% 32.29/32.51 (step t5377.t2.t6 (cl (= (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule cong :premises (t5377.t2.t4 t5377.t2.t5))
% 32.29/32.51 (step t5377.t2.t7 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.51 (step t5377.t2.t8 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv2 :premises (t5377.t2.t7))
% 32.29/32.51 (step t5377.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule not_not)
% 32.29/32.51 (step t5377.t2.t10 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule resolution :premises (t5377.t2.t8 t5377.t2.t9))
% 32.29/32.51 (step t5377.t2.t11 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false)) :rule resolution :premises (t5377.t2.t10 t5377.t2.a0))
% 32.29/32.51 (step t5377.t2.t12 (cl (= (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)) false)) :rule trans :premises (t5377.t2.t6 t5377.t2.t11))
% 32.29/32.51 (step t5377.t2.t13 (cl (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t5377.t2.t2 t5377.t2.t12))
% 32.29/32.51 (step t5377.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule subproof :discharge (t5377.t2.a0 t5377.t2.a1))
% 32.29/32.51 (step t5377.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule and_pos)
% 32.29/32.51 (step t5377.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5377.t5 (cl (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))))) :rule resolution :premises (t5377.t2 t5377.t3 t5377.t4))
% 32.29/32.51 (step t5377.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule reordering :premises (t5377.t5))
% 32.29/32.51 (step t5377.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule contraction :premises (t5377.t6))
% 32.29/32.51 (step t5377.t8 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t5377.t1 t5377.t7))
% 32.29/32.51 (step t5377.t9 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg2)
% 32.29/32.51 (step t5377.t10 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t5377.t8 t5377.t9))
% 32.29/32.51 (step t5377.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t5377.t10))
% 32.29/32.51 (step t5377.t12 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule implies :premises (t5377.t11))
% 32.29/32.51 (step t5377.t13 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule and_neg)
% 32.29/32.51 (step t5377.t14 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5377.t15)
% 32.29/32.51 (assume t5377.t15.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (assume t5377.t15.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.51 (step t5377.t15.t1 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t5377.t15.a1))
% 32.29/32.51 (step t5377.t15.t2 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t5377.t15.t1))
% 32.29/32.51 (step t5377.t15.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.51 (step t5377.t15.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5377.t15.a0))
% 32.29/32.51 (step t5377.t15.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t5377.t15.t3 t5377.t15.t4))
% 32.29/32.51 (step t5377.t15.t6 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule trans :premises (t5377.t15.t2 t5377.t15.t5))
% 32.29/32.51 (step t5377.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule subproof :discharge (t5377.t15.a0 t5377.t15.a1))
% 32.29/32.51 (step t5377.t16 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5377.t17 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5377.t18 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule resolution :premises (t5377.t15 t5377.t16 t5377.t17))
% 32.29/32.51 (step t5377.t19 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule reordering :premises (t5377.t18))
% 32.29/32.51 (step t5377.t20 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule contraction :premises (t5377.t19))
% 32.29/32.51 (step t5377.t21 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule resolution :premises (t5377.t14 t5377.t20))
% 32.29/32.51 (step t5377.t22 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule implies_neg2)
% 32.29/32.51 (step t5377.t23 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t5377.t21 t5377.t22))
% 32.29/32.51 (step t5377.t24 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule contraction :premises (t5377.t23))
% 32.29/32.51 (step t5377.t25 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule implies :premises (t5377.t24))
% 32.29/32.51 (step t5377.t26 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule and_neg)
% 32.29/32.51 (step t5377.t27 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5377.t26 t5377.a0 t5377.a1))
% 32.29/32.51 (step t5377.t28 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule resolution :premises (t5377.t25 t5377.t27))
% 32.29/32.51 (step t5377.t29 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t5377.t13 t5377.a2 t5377.t28))
% 32.29/32.51 (step t5377.t30 (cl (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t5377.t12 t5377.t29))
% 32.29/32.51 (step t5377 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule subproof :discharge (t5377.a0 t5377.a1 t5377.a2))
% 32.29/32.51 (step t5378 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5379 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5380 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule and_pos)
% 32.29/32.51 (step t5381 (cl (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))))) :rule resolution :premises (t5377 t5378 t5379 t5380))
% 32.29/32.51 (step t5382 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule reordering :premises (t5381))
% 32.29/32.51 (step t5383 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule contraction :premises (t5382))
% 32.29/32.51 (step t5384 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t5376 t5383))
% 32.29/32.51 (step t5385 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg2)
% 32.29/32.51 (step t5386 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t5384 t5385))
% 32.29/32.51 (step t5387 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t5386))
% 32.29/32.51 (step t5388 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule implies :premises (t5387))
% 32.29/32.51 (step t5389 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t5375 t5388))
% 32.29/32.51 (step t5390 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5391 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.29/32.51 (step t5392 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))))) :rule or_neg)
% 32.29/32.51 (step t5393 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule or_neg)
% 32.29/32.51 (step t5394 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t5389 t5390 t5391 t5392 t5393))
% 32.29/32.51 (step t5395 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t5394))
% 32.29/32.51 (step t5396 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t5362 t5374 t5395))
% 32.29/32.51 (step t5397 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule or :premises (t5396))
% 32.29/32.51 (step t5398 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule reordering :premises (t5397))
% 32.29/32.51 (step t5399 (cl (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule and :premises (t459))
% 32.29/32.51 (step t5400 (cl (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t5398 t864 t461 t5399))
% 32.29/32.51 (step t5401 (cl (not (= (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (or (= tptp.e22 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))))) (not (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) (or (= tptp.e22 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.51 (step t5402 (cl (= (= (= (not (not (= tptp.e22 tptp.e24))) (= tptp.e22 tptp.e24)) true) (= (not (not (= tptp.e22 tptp.e24))) (= tptp.e22 tptp.e24)))) :rule equiv_simplify)
% 32.29/32.51 (step t5403 (cl (not (= (= (not (not (= tptp.e22 tptp.e24))) (= tptp.e22 tptp.e24)) true)) (= (not (not (= tptp.e22 tptp.e24))) (= tptp.e22 tptp.e24))) :rule equiv1 :premises (t5402))
% 32.29/32.51 (step t5404 (cl (= (= (not (not (= tptp.e22 tptp.e24))) (= tptp.e22 tptp.e24)) (= (= tptp.e22 tptp.e24) (not (not (= tptp.e22 tptp.e24)))))) :rule all_simplify)
% 32.29/32.51 (step t5405 (cl (= (= tptp.e22 tptp.e24) (= tptp.e22 tptp.e24))) :rule refl)
% 32.29/32.51 (step t5406 (cl (= (not (not (= tptp.e22 tptp.e24))) (= tptp.e22 tptp.e24))) :rule all_simplify)
% 32.29/32.51 (step t5407 (cl (= (= (= tptp.e22 tptp.e24) (not (not (= tptp.e22 tptp.e24)))) (= (= tptp.e22 tptp.e24) (= tptp.e22 tptp.e24)))) :rule cong :premises (t5405 t5406))
% 32.29/32.51 (step t5408 (cl (= (= (= tptp.e22 tptp.e24) (= tptp.e22 tptp.e24)) true)) :rule all_simplify)
% 32.29/32.51 (step t5409 (cl (= (= (= tptp.e22 tptp.e24) (not (not (= tptp.e22 tptp.e24)))) true)) :rule trans :premises (t5407 t5408))
% 32.29/32.51 (step t5410 (cl (= (= (not (not (= tptp.e22 tptp.e24))) (= tptp.e22 tptp.e24)) true)) :rule trans :premises (t5404 t5409))
% 32.29/32.51 (step t5411 (cl (= (not (not (= tptp.e22 tptp.e24))) (= tptp.e22 tptp.e24))) :rule resolution :premises (t5403 t5410))
% 32.29/32.51 (step t5412 (cl (= (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule refl)
% 32.29/32.51 (step t5413 (cl (= (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (or (= tptp.e22 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))))) :rule cong :premises (t5411 t3009 t5412))
% 32.29/32.51 (step t5414 (cl (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule and_neg)
% 32.29/32.51 (step t5415 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5416)
% 32.29/32.51 (assume t5416.a0 (not (= tptp.e22 tptp.e24)))
% 32.29/32.51 (assume t5416.a1 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.51 (step t5416.t1 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5416.t2)
% 32.29/32.51 (assume t5416.t2.a0 (not (= tptp.e22 tptp.e24)))
% 32.29/32.51 (assume t5416.t2.a1 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.51 (step t5416.t2.t1 (cl (= (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) false) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.51 (step t5416.t2.t2 (cl (not (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) false)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule equiv1 :premises (t5416.t2.t1))
% 32.29/32.51 (step t5416.t2.t3 (cl (= tptp.e22 tptp.e22)) :rule refl)
% 32.29/32.51 (step t5416.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t5416.t2.a1))
% 32.29/32.51 (step t5416.t2.t5 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t5416.t2.t4))
% 32.29/32.51 (step t5416.t2.t6 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t5416.t2.t5))
% 32.29/32.51 (step t5416.t2.t7 (cl (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e22 tptp.e24))) :rule cong :premises (t5416.t2.t3 t5416.t2.t6))
% 32.29/32.51 (step t5416.t2.t8 (cl (= (= (= tptp.e22 tptp.e24) false) (not (= tptp.e22 tptp.e24)))) :rule equiv_simplify)
% 32.29/32.51 (step t5416.t2.t9 (cl (= (= tptp.e22 tptp.e24) false) (not (not (= tptp.e22 tptp.e24)))) :rule equiv2 :premises (t5416.t2.t8))
% 32.29/32.51 (step t5416.t2.t10 (cl (not (not (not (= tptp.e22 tptp.e24)))) (= tptp.e22 tptp.e24)) :rule not_not)
% 32.29/32.51 (step t5416.t2.t11 (cl (= (= tptp.e22 tptp.e24) false) (= tptp.e22 tptp.e24)) :rule resolution :premises (t5416.t2.t9 t5416.t2.t10))
% 32.29/32.51 (step t5416.t2.t12 (cl (= (= tptp.e22 tptp.e24) false)) :rule resolution :premises (t5416.t2.t11 t5416.t2.a0))
% 32.29/32.51 (step t5416.t2.t13 (cl (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)) false)) :rule trans :premises (t5416.t2.t7 t5416.t2.t12))
% 32.29/32.51 (step t5416.t2.t14 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t5416.t2.t2 t5416.t2.t13))
% 32.29/32.51 (step t5416.t2 (cl (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule subproof :discharge (t5416.t2.a0 t5416.t2.a1))
% 32.29/32.51 (step t5416.t3 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5416.t4 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5416.t5 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))) (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t5416.t2 t5416.t3 t5416.t4))
% 32.29/32.51 (step t5416.t6 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule reordering :premises (t5416.t5))
% 32.29/32.51 (step t5416.t7 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule contraction :premises (t5416.t6))
% 32.29/32.51 (step t5416.t8 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t5416.t1 t5416.t7))
% 32.29/32.51 (step t5416.t9 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule implies_neg2)
% 32.29/32.51 (step t5416.t10 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t5416.t8 t5416.t9))
% 32.29/32.51 (step t5416.t11 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule contraction :premises (t5416.t10))
% 32.29/32.51 (step t5416.t12 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies :premises (t5416.t11))
% 32.29/32.51 (step t5416.t13 (cl (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule and_neg)
% 32.29/32.51 (step t5416.t14 (cl (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t5416.t13 t5416.a0 t5416.a1))
% 32.29/32.51 (step t5416.t15 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t5416.t12 t5416.t14))
% 32.29/32.51 (step t5416 (cl (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule subproof :discharge (t5416.a0 t5416.a1))
% 32.29/32.51 (step t5417 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5418 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5419 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))) (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t5416 t5417 t5418))
% 32.29/32.51 (step t5420 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule reordering :premises (t5419))
% 32.29/32.51 (step t5421 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule contraction :premises (t5420))
% 32.29/32.51 (step t5422 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t5415 t5421))
% 32.29/32.51 (step t5423 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule implies_neg2)
% 32.29/32.51 (step t5424 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t5422 t5423))
% 32.29/32.51 (step t5425 (cl (=> (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule contraction :premises (t5424))
% 32.29/32.51 (step t5426 (cl (not (and (not (= tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies :premises (t5425))
% 32.29/32.51 (step t5427 (cl (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t5414 t5426))
% 32.29/32.51 (step t5428 (cl (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (not (= tptp.e22 tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5429 (cl (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))))) :rule or_neg)
% 32.29/32.51 (step t5430 (cl (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule or_neg)
% 32.29/32.51 (step t5431 (cl (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t5427 t5428 t5429 t5430))
% 32.29/32.51 (step t5432 (cl (or (not (not (= tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule contraction :premises (t5431))
% 32.29/32.51 (step t5433 (cl (or (= tptp.e22 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t5401 t5413 t5432))
% 32.29/32.51 (step t5434 (cl (= tptp.e22 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21)))) :rule or :premises (t5433))
% 32.29/32.51 (step t5435 (cl (= tptp.e22 tptp.e24) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule reordering :premises (t5434))
% 32.29/32.51 (step t5436 (cl (not (= tptp.e22 tptp.e24))) :rule and :premises (a9))
% 32.29/32.51 (step t5437 (cl (not (= (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (or (= tptp.e22 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))))) (not (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) (or (= tptp.e22 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule equiv_pos2)
% 32.29/32.51 (step t5438 (cl (= (= (= (not (not (= tptp.e22 tptp.e23))) (= tptp.e22 tptp.e23)) true) (= (not (not (= tptp.e22 tptp.e23))) (= tptp.e22 tptp.e23)))) :rule equiv_simplify)
% 32.29/32.51 (step t5439 (cl (not (= (= (not (not (= tptp.e22 tptp.e23))) (= tptp.e22 tptp.e23)) true)) (= (not (not (= tptp.e22 tptp.e23))) (= tptp.e22 tptp.e23))) :rule equiv1 :premises (t5438))
% 32.29/32.51 (step t5440 (cl (= (= (not (not (= tptp.e22 tptp.e23))) (= tptp.e22 tptp.e23)) (= (= tptp.e22 tptp.e23) (not (not (= tptp.e22 tptp.e23)))))) :rule all_simplify)
% 32.29/32.51 (step t5441 (cl (= (= tptp.e22 tptp.e23) (= tptp.e22 tptp.e23))) :rule refl)
% 32.29/32.51 (step t5442 (cl (= (not (not (= tptp.e22 tptp.e23))) (= tptp.e22 tptp.e23))) :rule all_simplify)
% 32.29/32.51 (step t5443 (cl (= (= (= tptp.e22 tptp.e23) (not (not (= tptp.e22 tptp.e23)))) (= (= tptp.e22 tptp.e23) (= tptp.e22 tptp.e23)))) :rule cong :premises (t5441 t5442))
% 32.29/32.51 (step t5444 (cl (= (= (= tptp.e22 tptp.e23) (= tptp.e22 tptp.e23)) true)) :rule all_simplify)
% 32.29/32.51 (step t5445 (cl (= (= (= tptp.e22 tptp.e23) (not (not (= tptp.e22 tptp.e23)))) true)) :rule trans :premises (t5443 t5444))
% 32.29/32.51 (step t5446 (cl (= (= (not (not (= tptp.e22 tptp.e23))) (= tptp.e22 tptp.e23)) true)) :rule trans :premises (t5440 t5445))
% 32.29/32.51 (step t5447 (cl (= (not (not (= tptp.e22 tptp.e23))) (= tptp.e22 tptp.e23))) :rule resolution :premises (t5439 t5446))
% 32.29/32.51 (step t5448 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))))) :rule refl)
% 32.29/32.51 (step t5449 (cl (= (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule refl)
% 32.29/32.51 (step t5450 (cl (= (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (or (= tptp.e22 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))))) :rule cong :premises (t5447 t5448 t5449))
% 32.29/32.51 (step t5451 (cl (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule and_neg)
% 32.29/32.51 (step t5452 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5453)
% 32.29/32.51 (assume t5453.a0 (not (= tptp.e22 tptp.e23)))
% 32.29/32.51 (assume t5453.a1 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.51 (step t5453.t1 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5453.t2)
% 32.29/32.51 (assume t5453.t2.a0 (not (= tptp.e22 tptp.e23)))
% 32.29/32.51 (assume t5453.t2.a1 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.51 (step t5453.t2.t1 (cl (= (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) false) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5453.t2.t2 (cl (not (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) false)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule equiv1 :premises (t5453.t2.t1))
% 32.29/32.51 (step t5453.t2.t3 (cl (= tptp.e22 tptp.e22)) :rule refl)
% 32.29/32.51 (step t5453.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23)) :rule symm :premises (t5453.t2.a1))
% 32.29/32.51 (step t5453.t2.t5 (cl (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e22 tptp.e23))) :rule cong :premises (t5453.t2.t3 t5453.t2.t4))
% 32.29/32.51 (step t5453.t2.t6 (cl (= (= (= tptp.e22 tptp.e23) false) (not (= tptp.e22 tptp.e23)))) :rule equiv_simplify)
% 32.29/32.51 (step t5453.t2.t7 (cl (= (= tptp.e22 tptp.e23) false) (not (not (= tptp.e22 tptp.e23)))) :rule equiv2 :premises (t5453.t2.t6))
% 32.29/32.51 (step t5453.t2.t8 (cl (not (not (not (= tptp.e22 tptp.e23)))) (= tptp.e22 tptp.e23)) :rule not_not)
% 32.29/32.51 (step t5453.t2.t9 (cl (= (= tptp.e22 tptp.e23) false) (= tptp.e22 tptp.e23)) :rule resolution :premises (t5453.t2.t7 t5453.t2.t8))
% 32.29/32.51 (step t5453.t2.t10 (cl (= (= tptp.e22 tptp.e23) false)) :rule resolution :premises (t5453.t2.t9 t5453.t2.a0))
% 32.29/32.51 (step t5453.t2.t11 (cl (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)) false)) :rule trans :premises (t5453.t2.t5 t5453.t2.t10))
% 32.29/32.51 (step t5453.t2.t12 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5453.t2.t2 t5453.t2.t11))
% 32.29/32.51 (step t5453.t2 (cl (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule subproof :discharge (t5453.t2.a0 t5453.t2.a1))
% 32.29/32.51 (step t5453.t3 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 tptp.e23))) :rule and_pos)
% 32.29/32.51 (step t5453.t4 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.51 (step t5453.t5 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))) (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5453.t2 t5453.t3 t5453.t4))
% 32.29/32.51 (step t5453.t6 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule reordering :premises (t5453.t5))
% 32.29/32.51 (step t5453.t7 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule contraction :premises (t5453.t6))
% 32.29/32.51 (step t5453.t8 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5453.t1 t5453.t7))
% 32.29/32.51 (step t5453.t9 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5453.t10 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5453.t8 t5453.t9))
% 32.29/32.51 (step t5453.t11 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule contraction :premises (t5453.t10))
% 32.29/32.51 (step t5453.t12 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies :premises (t5453.t11))
% 32.29/32.51 (step t5453.t13 (cl (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule and_neg)
% 32.29/32.51 (step t5453.t14 (cl (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5453.t13 t5453.a0 t5453.a1))
% 32.29/32.51 (step t5453.t15 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5453.t12 t5453.t14))
% 32.29/32.51 (step t5453 (cl (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule subproof :discharge (t5453.a0 t5453.a1))
% 32.29/32.51 (step t5454 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 tptp.e23))) :rule and_pos)
% 32.29/32.51 (step t5455 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.51 (step t5456 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))) (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5453 t5454 t5455))
% 32.29/32.51 (step t5457 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule reordering :premises (t5456))
% 32.29/32.51 (step t5458 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule contraction :premises (t5457))
% 32.29/32.51 (step t5459 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5452 t5458))
% 32.29/32.51 (step t5460 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5461 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5459 t5460))
% 32.29/32.51 (step t5462 (cl (=> (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule contraction :premises (t5461))
% 32.29/32.51 (step t5463 (cl (not (and (not (= tptp.e22 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies :premises (t5462))
% 32.29/32.51 (step t5464 (cl (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5451 t5463))
% 32.29/32.51 (step t5465 (cl (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (not (= tptp.e22 tptp.e23))))) :rule or_neg)
% 32.29/32.51 (step t5466 (cl (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))))) :rule or_neg)
% 32.29/32.51 (step t5467 (cl (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule or_neg)
% 32.29/32.51 (step t5468 (cl (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5464 t5465 t5466 t5467))
% 32.29/32.51 (step t5469 (cl (or (not (not (= tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule contraction :premises (t5468))
% 32.29/32.51 (step t5470 (cl (or (= tptp.e22 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5437 t5450 t5469))
% 32.29/32.51 (step t5471 (cl (= tptp.e22 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20)))) :rule or :premises (t5470))
% 32.29/32.51 (step t5472 (cl (= tptp.e22 tptp.e23) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule reordering :premises (t5471))
% 32.29/32.51 (step t5473 (cl (not (= tptp.e22 tptp.e23))) :rule and :premises (a9))
% 32.29/32.51 (step t5474 (cl (not (= (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))))) (not (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv_pos2)
% 32.29/32.51 (step t5475 (cl (= (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))))) :rule refl)
% 32.29/32.51 (step t5476 (cl (= (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) true) (= (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.51 (step t5477 (cl (not (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) true)) (= (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule equiv1 :premises (t5476))
% 32.29/32.51 (step t5478 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))))) :rule all_simplify)
% 32.29/32.51 (step t5479 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule refl)
% 32.29/32.51 (step t5480 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.29/32.51 (step t5481 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule cong :premises (t5479 t5480))
% 32.29/32.51 (step t5482 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) true)) :rule all_simplify)
% 32.29/32.51 (step t5483 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) true)) :rule trans :premises (t5481 t5482))
% 32.29/32.51 (step t5484 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) true)) :rule trans :premises (t5478 t5483))
% 32.29/32.51 (step t5485 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t5477 t5484))
% 32.29/32.51 (step t5486 (cl (= (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))))) :rule refl)
% 32.29/32.51 (step t5487 (cl (= (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule refl)
% 32.29/32.51 (step t5488 (cl (= (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))))) :rule cong :premises (t5475 t4 t5485 t5486 t5487))
% 32.29/32.51 (step t5489 (cl (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule and_neg)
% 32.29/32.51 (step t5490 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5491)
% 32.29/32.51 (assume t5491.a0 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.51 (assume t5491.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (assume t5491.a2 (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))
% 32.29/32.51 (assume t5491.a3 (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))
% 32.29/32.51 (step t5491.t1 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5491.t2)
% 32.29/32.51 (assume t5491.t2.a0 (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))
% 32.29/32.51 (assume t5491.t2.a1 (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))
% 32.29/32.51 (assume t5491.t2.a2 (= tptp.e22 (tptp.h3 tptp.e11)))
% 32.29/32.51 (step t5491.t2.t1 (cl (= (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) false) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.51 (step t5491.t2.t2 (cl (not (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) false)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule equiv1 :premises (t5491.t2.t1))
% 32.29/32.51 (step t5491.t2.t3 (cl (= (tptp.h3 tptp.e11) tptp.e22)) :rule symm :premises (t5491.t2.a2))
% 32.29/32.51 (step t5491.t2.t4 (cl (= tptp.e22 (tptp.h3 tptp.e11))) :rule symm :premises (t5491.t2.t3))
% 32.29/32.51 (step t5491.t2.t5 (cl (= (tptp.h3 tptp.e11) (tptp.op2 tptp.e22 tptp.e22))) :rule symm :premises (t5491.t2.a1))
% 32.29/32.51 (step t5491.t2.t6 (cl (= tptp.e22 (tptp.op2 tptp.e22 tptp.e22))) :rule trans :premises (t5491.t2.t4 t5491.t2.t5))
% 32.29/32.51 (step t5491.t2.t7 (cl (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) :rule refl)
% 32.29/32.51 (step t5491.t2.t8 (cl (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule cong :premises (t5491.t2.t6 t5491.t2.t7))
% 32.29/32.51 (step t5491.t2.t9 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) false) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.51 (step t5491.t2.t10 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) false) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv2 :premises (t5491.t2.t9))
% 32.29/32.51 (step t5491.t2.t11 (cl (not (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) :rule not_not)
% 32.29/32.51 (step t5491.t2.t12 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) false) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) :rule resolution :premises (t5491.t2.t10 t5491.t2.t11))
% 32.29/32.51 (step t5491.t2.t13 (cl (= (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) false)) :rule resolution :premises (t5491.t2.t12 t5491.t2.a0))
% 32.29/32.51 (step t5491.t2.t14 (cl (= (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)) false)) :rule trans :premises (t5491.t2.t8 t5491.t2.t13))
% 32.29/32.51 (step t5491.t2.t15 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t5491.t2.t2 t5491.t2.t14))
% 32.29/32.51 (step t5491.t2 (cl (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule subproof :discharge (t5491.t2.a0 t5491.t2.a1 t5491.t2.a2))
% 32.29/32.51 (step t5491.t3 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule and_pos)
% 32.29/32.51 (step t5491.t4 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.51 (step t5491.t5 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.51 (step t5491.t6 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11))))) :rule resolution :premises (t5491.t2 t5491.t3 t5491.t4 t5491.t5))
% 32.29/32.51 (step t5491.t7 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule reordering :premises (t5491.t6))
% 32.29/32.51 (step t5491.t8 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule contraction :premises (t5491.t7))
% 32.29/32.51 (step t5491.t9 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t5491.t1 t5491.t8))
% 32.29/32.51 (step t5491.t10 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule implies_neg2)
% 32.29/32.51 (step t5491.t11 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (=> (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule resolution :premises (t5491.t9 t5491.t10))
% 32.29/32.51 (step t5491.t12 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule contraction :premises (t5491.t11))
% 32.29/32.51 (step t5491.t13 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule implies :premises (t5491.t12))
% 32.29/32.51 (step t5491.t14 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11))) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e11)))) :rule and_neg)
% 32.29/32.51 (step t5491.t15 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5491.t16)
% 32.29/32.51 (assume t5491.t16.a0 (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))
% 32.29/32.51 (assume t5491.t16.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (assume t5491.t16.a2 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.51 (step t5491.t16.t1 (cl (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22)) :rule symm :premises (t5491.t16.a2))
% 32.29/32.51 (step t5491.t16.t2 (cl (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule symm :premises (t5491.t16.t1))
% 32.29/32.51 (step t5491.t16.t3 (cl (= tptp.e22 tptp.e22)) :rule refl)
% 32.29/32.51 (step t5491.t16.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t5491.t16.a1))
% 32.29/32.51 (step t5491.t16.t5 (cl (= (tptp.op2 tptp.e22 tptp.unit2) (tptp.op2 tptp.e22 tptp.e22))) :rule cong :premises (t5491.t16.t3 t5491.t16.t4))
% 32.29/32.51 (step t5491.t16.t6 (cl (= (tptp.h3 tptp.e11) (tptp.op2 tptp.e22 tptp.e22))) :rule symm :premises (t5491.t16.a0))
% 32.29/32.51 (step t5491.t16.t7 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule symm :premises (t5491.t16.t6))
% 32.29/32.51 (step t5491.t16.t8 (cl (= tptp.e22 (tptp.h3 tptp.e11))) :rule trans :premises (t5491.t16.t2 t5491.t16.t5 t5491.t16.t7))
% 32.29/32.51 (step t5491.t16 (cl (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule subproof :discharge (t5491.t16.a0 t5491.t16.a1 t5491.t16.a2))
% 32.29/32.51 (step t5491.t17 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.51 (step t5491.t18 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5491.t19 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5491.t20 (cl (= tptp.e22 (tptp.h3 tptp.e11)) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))))) :rule resolution :premises (t5491.t16 t5491.t17 t5491.t18 t5491.t19))
% 32.29/32.51 (step t5491.t21 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule reordering :premises (t5491.t20))
% 32.29/32.51 (step t5491.t22 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule contraction :premises (t5491.t21))
% 32.29/32.51 (step t5491.t23 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule resolution :premises (t5491.t15 t5491.t22))
% 32.29/32.51 (step t5491.t24 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e11)))) :rule implies_neg2)
% 32.29/32.51 (step t5491.t25 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11)))) :rule resolution :premises (t5491.t23 t5491.t24))
% 32.29/32.51 (step t5491.t26 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11)))) :rule contraction :premises (t5491.t25))
% 32.29/32.51 (step t5491.t27 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule implies :premises (t5491.t26))
% 32.29/32.51 (step t5491.t28 (cl (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule and_neg)
% 32.29/32.51 (step t5491.t29 (cl (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule resolution :premises (t5491.t28 t5491.a3 t5491.a1 t5491.a0))
% 32.29/32.51 (step t5491.t30 (cl (= tptp.e22 (tptp.h3 tptp.e11))) :rule resolution :premises (t5491.t27 t5491.t29))
% 32.29/32.51 (step t5491.t31 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)))) :rule resolution :premises (t5491.t14 t5491.a2 t5491.a3 t5491.t30))
% 32.29/32.51 (step t5491.t32 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t5491.t13 t5491.t31))
% 32.29/32.51 (step t5491 (cl (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule subproof :discharge (t5491.a0 t5491.a1 t5491.a2 t5491.a3))
% 32.29/32.51 (step t5492 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5493 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5494 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule and_pos)
% 32.29/32.51 (step t5495 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.51 (step t5496 (cl (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))) (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))))) :rule resolution :premises (t5491 t5492 t5493 t5494 t5495))
% 32.29/32.51 (step t5497 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule reordering :premises (t5496))
% 32.29/32.51 (step t5498 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule contraction :premises (t5497))
% 32.29/32.51 (step t5499 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t5490 t5498))
% 32.29/32.51 (step t5500 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule implies_neg2)
% 32.29/32.51 (step t5501 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (=> (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule resolution :premises (t5499 t5500))
% 32.29/32.51 (step t5502 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule contraction :premises (t5501))
% 32.29/32.51 (step t5503 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule implies :premises (t5502))
% 32.29/32.51 (step t5504 (cl (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t5489 t5503))
% 32.29/32.51 (step t5505 (cl (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))))) :rule or_neg)
% 32.29/32.51 (step t5506 (cl (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.51 (step t5507 (cl (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))))) :rule or_neg)
% 32.29/32.51 (step t5508 (cl (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))))) :rule or_neg)
% 32.29/32.51 (step t5509 (cl (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule or_neg)
% 32.29/32.51 (step t5510 (cl (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule resolution :premises (t5504 t5505 t5506 t5507 t5508 t5509))
% 32.29/32.51 (step t5511 (cl (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule contraction :premises (t5510))
% 32.29/32.51 (step t5512 (cl (or (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))))) :rule resolution :premises (t5474 t5488 t5511))
% 32.29/32.51 (step t5513 (cl (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22)))) :rule or :premises (t5512))
% 32.29/32.51 (step t5514 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule reordering :premises (t5513))
% 32.29/32.51 (step t5515 (cl (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule and :premises (t459))
% 32.29/32.51 (step t5516 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule resolution :premises (t5318 t5320 t5359 t5361 t5400 t5435 t5436 t3043 t3044 t5472 t5473 t5514 t5515))
% 32.29/32.51 (step t5517 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule contraction :premises (t5516))
% 32.29/32.51 (step t5518 (cl (or (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule and :premises (t2369))
% 32.29/32.51 (step t5519 (cl (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) :rule or :premises (t5518))
% 32.29/32.51 (step t5520 (cl (not (= (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (or (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))))) (not (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) (or (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.51 (step t5521 (cl (= (= (= (not (not (= tptp.e20 tptp.e21))) (= tptp.e20 tptp.e21)) true) (= (not (not (= tptp.e20 tptp.e21))) (= tptp.e20 tptp.e21)))) :rule equiv_simplify)
% 32.29/32.51 (step t5522 (cl (not (= (= (not (not (= tptp.e20 tptp.e21))) (= tptp.e20 tptp.e21)) true)) (= (not (not (= tptp.e20 tptp.e21))) (= tptp.e20 tptp.e21))) :rule equiv1 :premises (t5521))
% 32.29/32.51 (step t5523 (cl (= (= (not (not (= tptp.e20 tptp.e21))) (= tptp.e20 tptp.e21)) (= (= tptp.e20 tptp.e21) (not (not (= tptp.e20 tptp.e21)))))) :rule all_simplify)
% 32.29/32.51 (step t5524 (cl (= (= tptp.e20 tptp.e21) (= tptp.e20 tptp.e21))) :rule refl)
% 32.29/32.51 (step t5525 (cl (= (not (not (= tptp.e20 tptp.e21))) (= tptp.e20 tptp.e21))) :rule all_simplify)
% 32.29/32.51 (step t5526 (cl (= (= (= tptp.e20 tptp.e21) (not (not (= tptp.e20 tptp.e21)))) (= (= tptp.e20 tptp.e21) (= tptp.e20 tptp.e21)))) :rule cong :premises (t5524 t5525))
% 32.29/32.51 (step t5527 (cl (= (= (= tptp.e20 tptp.e21) (= tptp.e20 tptp.e21)) true)) :rule all_simplify)
% 32.29/32.51 (step t5528 (cl (= (= (= tptp.e20 tptp.e21) (not (not (= tptp.e20 tptp.e21)))) true)) :rule trans :premises (t5526 t5527))
% 32.29/32.51 (step t5529 (cl (= (= (not (not (= tptp.e20 tptp.e21))) (= tptp.e20 tptp.e21)) true)) :rule trans :premises (t5523 t5528))
% 32.29/32.51 (step t5530 (cl (= (not (not (= tptp.e20 tptp.e21))) (= tptp.e20 tptp.e21))) :rule resolution :premises (t5522 t5529))
% 32.29/32.51 (step t5531 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule refl)
% 32.29/32.51 (step t5532 (cl (= (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (or (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))))) :rule cong :premises (t5530 t222 t5531))
% 32.29/32.51 (step t5533 (cl (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_neg)
% 32.29/32.51 (step t5534 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5535)
% 32.29/32.51 (assume t5535.a0 (not (= tptp.e20 tptp.e21)))
% 32.29/32.51 (assume t5535.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (step t5535.t1 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5535.t2)
% 32.29/32.51 (assume t5535.t2.a0 (not (= tptp.e20 tptp.e21)))
% 32.29/32.51 (assume t5535.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (step t5535.t2.t1 (cl (= (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)) false) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5535.t2.t2 (cl (not (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)) false)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule equiv1 :premises (t5535.t2.t1))
% 32.29/32.51 (step t5535.t2.t3 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.51 (step t5535.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5535.t2.a1))
% 32.29/32.51 (step t5535.t2.t5 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t5535.t2.t4))
% 32.29/32.51 (step t5535.t2.t6 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5535.t2.t5))
% 32.29/32.51 (step t5535.t2.t7 (cl (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 tptp.e21))) :rule cong :premises (t5535.t2.t3 t5535.t2.t6))
% 32.29/32.51 (step t5535.t2.t8 (cl (= (= (= tptp.e20 tptp.e21) false) (not (= tptp.e20 tptp.e21)))) :rule equiv_simplify)
% 32.29/32.51 (step t5535.t2.t9 (cl (= (= tptp.e20 tptp.e21) false) (not (not (= tptp.e20 tptp.e21)))) :rule equiv2 :premises (t5535.t2.t8))
% 32.29/32.51 (step t5535.t2.t10 (cl (not (not (not (= tptp.e20 tptp.e21)))) (= tptp.e20 tptp.e21)) :rule not_not)
% 32.29/32.51 (step t5535.t2.t11 (cl (= (= tptp.e20 tptp.e21) false) (= tptp.e20 tptp.e21)) :rule resolution :premises (t5535.t2.t9 t5535.t2.t10))
% 32.29/32.51 (step t5535.t2.t12 (cl (= (= tptp.e20 tptp.e21) false)) :rule resolution :premises (t5535.t2.t11 t5535.t2.a0))
% 32.29/32.51 (step t5535.t2.t13 (cl (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)) false)) :rule trans :premises (t5535.t2.t7 t5535.t2.t12))
% 32.29/32.51 (step t5535.t2.t14 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5535.t2.t2 t5535.t2.t13))
% 32.29/32.51 (step t5535.t2 (cl (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule subproof :discharge (t5535.t2.a0 t5535.t2.a1))
% 32.29/32.51 (step t5535.t3 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5535.t4 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5535.t5 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5535.t2 t5535.t3 t5535.t4))
% 32.29/32.51 (step t5535.t6 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule reordering :premises (t5535.t5))
% 32.29/32.51 (step t5535.t7 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule contraction :premises (t5535.t6))
% 32.29/32.51 (step t5535.t8 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5535.t1 t5535.t7))
% 32.29/32.51 (step t5535.t9 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg2)
% 32.29/32.51 (step t5535.t10 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5535.t8 t5535.t9))
% 32.29/32.51 (step t5535.t11 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule contraction :premises (t5535.t10))
% 32.29/32.51 (step t5535.t12 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies :premises (t5535.t11))
% 32.29/32.51 (step t5535.t13 (cl (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_neg)
% 32.29/32.51 (step t5535.t14 (cl (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5535.t13 t5535.a0 t5535.a1))
% 32.29/32.51 (step t5535.t15 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5535.t12 t5535.t14))
% 32.29/32.51 (step t5535 (cl (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule subproof :discharge (t5535.a0 t5535.a1))
% 32.29/32.51 (step t5536 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5537 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5538 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5535 t5536 t5537))
% 32.29/32.51 (step t5539 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule reordering :premises (t5538))
% 32.29/32.51 (step t5540 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule contraction :premises (t5539))
% 32.29/32.51 (step t5541 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5534 t5540))
% 32.29/32.51 (step t5542 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg2)
% 32.29/32.51 (step t5543 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5541 t5542))
% 32.29/32.51 (step t5544 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule contraction :premises (t5543))
% 32.29/32.51 (step t5545 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies :premises (t5544))
% 32.29/32.51 (step t5546 (cl (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5533 t5545))
% 32.29/32.51 (step t5547 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (not (= tptp.e20 tptp.e21))))) :rule or_neg)
% 32.29/32.51 (step t5548 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5549 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5550 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5546 t5547 t5548 t5549))
% 32.29/32.51 (step t5551 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule contraction :premises (t5550))
% 32.29/32.51 (step t5552 (cl (or (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5520 t5532 t5551))
% 32.29/32.51 (step t5553 (cl (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24)))) :rule or :premises (t5552))
% 32.29/32.51 (step t5554 (cl (= tptp.e20 tptp.e21) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule reordering :premises (t5553))
% 32.29/32.51 (step t5555 (cl (not (= (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (or (= tptp.e20 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))))) (not (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) (or (= tptp.e20 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule equiv_pos2)
% 32.29/32.51 (step t5556 (cl (= (= (= (not (not (= tptp.e20 tptp.e24))) (= tptp.e20 tptp.e24)) true) (= (not (not (= tptp.e20 tptp.e24))) (= tptp.e20 tptp.e24)))) :rule equiv_simplify)
% 32.29/32.51 (step t5557 (cl (not (= (= (not (not (= tptp.e20 tptp.e24))) (= tptp.e20 tptp.e24)) true)) (= (not (not (= tptp.e20 tptp.e24))) (= tptp.e20 tptp.e24))) :rule equiv1 :premises (t5556))
% 32.29/32.51 (step t5558 (cl (= (= (not (not (= tptp.e20 tptp.e24))) (= tptp.e20 tptp.e24)) (= (= tptp.e20 tptp.e24) (not (not (= tptp.e20 tptp.e24)))))) :rule all_simplify)
% 32.29/32.51 (step t5559 (cl (= (= tptp.e20 tptp.e24) (= tptp.e20 tptp.e24))) :rule refl)
% 32.29/32.51 (step t5560 (cl (= (not (not (= tptp.e20 tptp.e24))) (= tptp.e20 tptp.e24))) :rule all_simplify)
% 32.29/32.51 (step t5561 (cl (= (= (= tptp.e20 tptp.e24) (not (not (= tptp.e20 tptp.e24)))) (= (= tptp.e20 tptp.e24) (= tptp.e20 tptp.e24)))) :rule cong :premises (t5559 t5560))
% 32.29/32.51 (step t5562 (cl (= (= (= tptp.e20 tptp.e24) (= tptp.e20 tptp.e24)) true)) :rule all_simplify)
% 32.29/32.51 (step t5563 (cl (= (= (= tptp.e20 tptp.e24) (not (not (= tptp.e20 tptp.e24)))) true)) :rule trans :premises (t5561 t5562))
% 32.29/32.51 (step t5564 (cl (= (= (not (not (= tptp.e20 tptp.e24))) (= tptp.e20 tptp.e24)) true)) :rule trans :premises (t5558 t5563))
% 32.29/32.51 (step t5565 (cl (= (not (not (= tptp.e20 tptp.e24))) (= tptp.e20 tptp.e24))) :rule resolution :premises (t5557 t5564))
% 32.29/32.51 (step t5566 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))))) :rule refl)
% 32.29/32.51 (step t5567 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule refl)
% 32.29/32.51 (step t5568 (cl (= (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (or (= tptp.e20 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))))) :rule cong :premises (t5565 t5566 t4 t5567))
% 32.29/32.51 (step t5569 (cl (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule and_neg)
% 32.29/32.51 (step t5570 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5571)
% 32.29/32.51 (assume t5571.a0 (not (= tptp.e20 tptp.e24)))
% 32.29/32.51 (assume t5571.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.51 (assume t5571.a2 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (step t5571.t1 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5571.t2)
% 32.29/32.51 (assume t5571.t2.a0 (not (= tptp.e20 tptp.e24)))
% 32.29/32.51 (assume t5571.t2.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))
% 32.29/32.51 (step t5571.t2.t1 (cl (= (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) false) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.51 (step t5571.t2.t2 (cl (not (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) false)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule equiv1 :premises (t5571.t2.t1))
% 32.29/32.51 (step t5571.t2.t3 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.51 (step t5571.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) :rule symm :premises (t5571.t2.a1))
% 32.29/32.51 (step t5571.t2.t5 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule symm :premises (t5571.t2.t4))
% 32.29/32.51 (step t5571.t2.t6 (cl (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) :rule symm :premises (t5571.t2.t5))
% 32.29/32.51 (step t5571.t2.t7 (cl (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 tptp.e24))) :rule cong :premises (t5571.t2.t3 t5571.t2.t6))
% 32.29/32.51 (step t5571.t2.t8 (cl (= (= (= tptp.e20 tptp.e24) false) (not (= tptp.e20 tptp.e24)))) :rule equiv_simplify)
% 32.29/32.51 (step t5571.t2.t9 (cl (= (= tptp.e20 tptp.e24) false) (not (not (= tptp.e20 tptp.e24)))) :rule equiv2 :premises (t5571.t2.t8))
% 32.29/32.51 (step t5571.t2.t10 (cl (not (not (not (= tptp.e20 tptp.e24)))) (= tptp.e20 tptp.e24)) :rule not_not)
% 32.29/32.51 (step t5571.t2.t11 (cl (= (= tptp.e20 tptp.e24) false) (= tptp.e20 tptp.e24)) :rule resolution :premises (t5571.t2.t9 t5571.t2.t10))
% 32.29/32.51 (step t5571.t2.t12 (cl (= (= tptp.e20 tptp.e24) false)) :rule resolution :premises (t5571.t2.t11 t5571.t2.a0))
% 32.29/32.51 (step t5571.t2.t13 (cl (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)) false)) :rule trans :premises (t5571.t2.t7 t5571.t2.t12))
% 32.29/32.51 (step t5571.t2.t14 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t5571.t2.t2 t5571.t2.t13))
% 32.29/32.51 (step t5571.t2 (cl (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule subproof :discharge (t5571.t2.a0 t5571.t2.a1))
% 32.29/32.51 (step t5571.t3 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5571.t4 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule and_pos)
% 32.29/32.51 (step t5571.t5 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))) (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))))) :rule resolution :premises (t5571.t2 t5571.t3 t5571.t4))
% 32.29/32.51 (step t5571.t6 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule reordering :premises (t5571.t5))
% 32.29/32.51 (step t5571.t7 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule contraction :premises (t5571.t6))
% 32.29/32.51 (step t5571.t8 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t5571.t1 t5571.t7))
% 32.29/32.51 (step t5571.t9 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule implies_neg2)
% 32.29/32.51 (step t5571.t10 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule resolution :premises (t5571.t8 t5571.t9))
% 32.29/32.51 (step t5571.t11 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule contraction :premises (t5571.t10))
% 32.29/32.51 (step t5571.t12 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule implies :premises (t5571.t11))
% 32.29/32.51 (step t5571.t13 (cl (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule and_neg)
% 32.29/32.51 (step t5571.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5571.t15)
% 32.29/32.51 (assume t5571.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (assume t5571.t15.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.51 (step t5571.t15.t1 (cl (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24)) :rule symm :premises (t5571.t15.a1))
% 32.29/32.51 (step t5571.t15.t2 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule symm :premises (t5571.t15.t1))
% 32.29/32.51 (step t5571.t15.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.51 (step t5571.t15.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t5571.t15.a0))
% 32.29/32.51 (step t5571.t15.t5 (cl (= (tptp.op2 tptp.e24 tptp.unit2) (tptp.op2 tptp.e24 tptp.e22))) :rule cong :premises (t5571.t15.t3 t5571.t15.t4))
% 32.29/32.51 (step t5571.t15.t6 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule trans :premises (t5571.t15.t2 t5571.t15.t5))
% 32.29/32.51 (step t5571.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule subproof :discharge (t5571.t15.a0 t5571.t15.a1))
% 32.29/32.51 (step t5571.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5571.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5571.t18 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))))) :rule resolution :premises (t5571.t15 t5571.t16 t5571.t17))
% 32.29/32.51 (step t5571.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule reordering :premises (t5571.t18))
% 32.29/32.51 (step t5571.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule contraction :premises (t5571.t19))
% 32.29/32.51 (step t5571.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule resolution :premises (t5571.t14 t5571.t20))
% 32.29/32.51 (step t5571.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule implies_neg2)
% 32.29/32.51 (step t5571.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t5571.t21 t5571.t22))
% 32.29/32.51 (step t5571.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule contraction :premises (t5571.t23))
% 32.29/32.51 (step t5571.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule implies :premises (t5571.t24))
% 32.29/32.51 (step t5571.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule and_neg)
% 32.29/32.51 (step t5571.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule resolution :premises (t5571.t26 t5571.a2 t5571.a1))
% 32.29/32.51 (step t5571.t28 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule resolution :premises (t5571.t25 t5571.t27))
% 32.29/32.51 (step t5571.t29 (cl (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t5571.t13 t5571.a0 t5571.t28))
% 32.29/32.51 (step t5571.t30 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t5571.t12 t5571.t29))
% 32.29/32.51 (step t5571 (cl (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule subproof :discharge (t5571.a0 t5571.a1 t5571.a2))
% 32.29/32.51 (step t5572 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (= tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5573 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5574 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5575 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))) (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)))) :rule resolution :premises (t5571 t5572 t5573 t5574))
% 32.29/32.51 (step t5576 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule reordering :premises (t5575))
% 32.29/32.51 (step t5577 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule contraction :premises (t5576))
% 32.29/32.51 (step t5578 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t5570 t5577))
% 32.29/32.51 (step t5579 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule implies_neg2)
% 32.29/32.51 (step t5580 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule resolution :premises (t5578 t5579))
% 32.29/32.51 (step t5581 (cl (=> (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule contraction :premises (t5580))
% 32.29/32.51 (step t5582 (cl (not (and (not (= tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule implies :premises (t5581))
% 32.29/32.51 (step t5583 (cl (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t5569 t5582))
% 32.29/32.51 (step t5584 (cl (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (not (not (not (= tptp.e20 tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5585 (cl (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (not (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))))) :rule or_neg)
% 32.29/32.51 (step t5586 (cl (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.51 (step t5587 (cl (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule or_neg)
% 32.29/32.51 (step t5588 (cl (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule resolution :premises (t5583 t5584 t5585 t5586 t5587))
% 32.29/32.51 (step t5589 (cl (or (not (not (= tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule contraction :premises (t5588))
% 32.29/32.51 (step t5590 (cl (or (= tptp.e20 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))))) :rule resolution :premises (t5555 t5568 t5589))
% 32.29/32.51 (step t5591 (cl (= tptp.e20 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22)))) :rule or :premises (t5590))
% 32.29/32.51 (step t5592 (cl (= tptp.e20 tptp.e24) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t5591))
% 32.29/32.51 (step t5593 (cl (not (= tptp.e20 tptp.e24))) :rule and :premises (a9))
% 32.29/32.51 (step t5594 (cl (not (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))))) (not (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_pos2)
% 32.29/32.51 (step t5595 (cl (= (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule refl)
% 32.29/32.51 (step t5596 (cl (= (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.h1 tptp.e14))))) :rule refl)
% 32.29/32.51 (step t5597 (cl (= (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule refl)
% 32.29/32.51 (step t5598 (cl (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))))) :rule cong :premises (t5595 t222 t2927 t2928 t2 t5331 t5596 t5597))
% 32.29/32.51 (step t5599 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule and_neg)
% 32.29/32.51 (step t5600 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5601)
% 32.29/32.51 (assume t5601.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.51 (assume t5601.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (assume t5601.a2 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.51 (assume t5601.a3 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.51 (assume t5601.a4 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.51 (assume t5601.a5 (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))
% 32.29/32.51 (assume t5601.a6 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.51 (step t5601.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5601.t2)
% 32.29/32.51 (assume t5601.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))
% 32.29/32.51 (assume t5601.t2.a1 (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))
% 32.29/32.51 (assume t5601.t2.a2 (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))
% 32.29/32.51 (assume t5601.t2.a3 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.51 (assume t5601.t2.a4 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.51 (step t5601.t2.t1 (cl (= (= (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) false) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5601.t2.t2 (cl (not (= (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) false)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule equiv1 :premises (t5601.t2.t1))
% 32.29/32.51 (step t5601.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) :rule symm :premises (t5601.t2.a1))
% 32.29/32.51 (step t5601.t2.t4 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule symm :premises (t5601.t2.t3))
% 32.29/32.51 (step t5601.t2.t5 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t5601.t2.a3))
% 32.29/32.51 (step t5601.t2.t6 (cl (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) :rule symm :premises (t5601.t2.a2))
% 32.29/32.51 (step t5601.t2.t7 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule symm :premises (t5601.t2.t6))
% 32.29/32.51 (step t5601.t2.t8 (cl (= (tptp.h1 tptp.e14) (tptp.op2 tptp.e21 tptp.e24))) :rule trans :premises (t5601.t2.t5 t5601.t2.t7))
% 32.29/32.51 (step t5601.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.h1 tptp.e14))) :rule symm :premises (t5601.t2.t8))
% 32.29/32.51 (step t5601.t2.t10 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e20)) :rule symm :premises (t5601.t2.a4))
% 32.29/32.51 (step t5601.t2.t11 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.h1 tptp.e14))) :rule trans :premises (t5601.t2.t10 t5601.t2.a3))
% 32.29/32.51 (step t5601.t2.t12 (cl (= (tptp.h1 tptp.e14) (tptp.op2 tptp.e24 tptp.e20))) :rule symm :premises (t5601.t2.t11))
% 32.29/32.51 (step t5601.t2.t13 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e24 tptp.e20))) :rule trans :premises (t5601.t2.t9 t5601.t2.t12))
% 32.29/32.51 (step t5601.t2.t14 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e21 tptp.e24))) :rule symm :premises (t5601.t2.t13))
% 32.29/32.51 (step t5601.t2.t15 (cl (= (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule cong :premises (t5601.t2.t4 t5601.t2.t14))
% 32.29/32.51 (step t5601.t2.t16 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5601.t2.t17 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv2 :premises (t5601.t2.t16))
% 32.29/32.51 (step t5601.t2.t18 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule not_not)
% 32.29/32.51 (step t5601.t2.t19 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t5601.t2.t17 t5601.t2.t18))
% 32.29/32.51 (step t5601.t2.t20 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false)) :rule resolution :premises (t5601.t2.t19 t5601.t2.a0))
% 32.29/32.51 (step t5601.t2.t21 (cl (= (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) false)) :rule trans :premises (t5601.t2.t15 t5601.t2.t20))
% 32.29/32.51 (step t5601.t2.t22 (cl (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5601.t2.t2 t5601.t2.t21))
% 32.29/32.51 (step t5601.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule subproof :discharge (t5601.t2.a0 t5601.t2.a1 t5601.t2.a2 t5601.t2.a3 t5601.t2.a4))
% 32.29/32.51 (step t5601.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5601.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5601.t5 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5601.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5601.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.51 (step t5601.t8 (cl (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t5601.t2 t5601.t3 t5601.t4 t5601.t5 t5601.t6 t5601.t7))
% 32.29/32.51 (step t5601.t9 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule reordering :premises (t5601.t8))
% 32.29/32.51 (step t5601.t10 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule contraction :premises (t5601.t9))
% 32.29/32.51 (step t5601.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5601.t1 t5601.t10))
% 32.29/32.51 (step t5601.t12 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5601.t13 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t5601.t11 t5601.t12))
% 32.29/32.51 (step t5601.t14 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule contraction :premises (t5601.t13))
% 32.29/32.51 (step t5601.t15 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule implies :premises (t5601.t14))
% 32.29/32.51 (step t5601.t16 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) :rule and_neg)
% 32.29/32.51 (step t5601.t17 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5601.t18)
% 32.29/32.51 (assume t5601.t18.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.51 (assume t5601.t18.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.51 (step t5601.t18.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t5601.t18.a1))
% 32.29/32.51 (step t5601.t18.t2 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t5601.t18.t1))
% 32.29/32.51 (step t5601.t18.t3 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t5601.t18.a0))
% 32.29/32.51 (step t5601.t18.t4 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t5601.t18.t3))
% 32.29/32.51 (step t5601.t18.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t5601.t18.t4))
% 32.29/32.51 (step t5601.t18.t6 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.51 (step t5601.t18.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t5601.t18.t5 t5601.t18.t6))
% 32.29/32.51 (step t5601.t18.t8 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule trans :premises (t5601.t18.t2 t5601.t18.t7))
% 32.29/32.51 (step t5601.t18 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule subproof :discharge (t5601.t18.a0 t5601.t18.a1))
% 32.29/32.51 (step t5601.t19 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5601.t20 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5601.t21 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule resolution :premises (t5601.t18 t5601.t19 t5601.t20))
% 32.29/32.51 (step t5601.t22 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule reordering :premises (t5601.t21))
% 32.29/32.51 (step t5601.t23 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule contraction :premises (t5601.t22))
% 32.29/32.51 (step t5601.t24 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t5601.t17 t5601.t23))
% 32.29/32.51 (step t5601.t25 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg2)
% 32.29/32.51 (step t5601.t26 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t5601.t24 t5601.t25))
% 32.29/32.51 (step t5601.t27 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t5601.t26))
% 32.29/32.51 (step t5601.t28 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule implies :premises (t5601.t27))
% 32.29/32.51 (step t5601.t29 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule and_neg)
% 32.29/32.51 (step t5601.t30 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule resolution :premises (t5601.t29 t5601.a3 t5601.a2))
% 32.29/32.51 (step t5601.t31 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t5601.t28 t5601.t30))
% 32.29/32.51 (step t5601.t32 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5601.t33)
% 32.29/32.51 (assume t5601.t33.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (assume t5601.t33.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.51 (step t5601.t33.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t5601.t33.a1))
% 32.29/32.51 (step t5601.t33.t2 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t5601.t33.t1))
% 32.29/32.51 (step t5601.t33.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5601.t33.a0))
% 32.29/32.51 (step t5601.t33.t4 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.51 (step t5601.t33.t5 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t5601.t33.t3 t5601.t33.t4))
% 32.29/32.51 (step t5601.t33.t6 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule trans :premises (t5601.t33.t2 t5601.t33.t5))
% 32.29/32.51 (step t5601.t33 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule subproof :discharge (t5601.t33.a0 t5601.t33.a1))
% 32.29/32.51 (step t5601.t34 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5601.t35 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5601.t36 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule resolution :premises (t5601.t33 t5601.t34 t5601.t35))
% 32.29/32.51 (step t5601.t37 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule reordering :premises (t5601.t36))
% 32.29/32.51 (step t5601.t38 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule contraction :premises (t5601.t37))
% 32.29/32.51 (step t5601.t39 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t5601.t32 t5601.t38))
% 32.29/32.51 (step t5601.t40 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies_neg2)
% 32.29/32.51 (step t5601.t41 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5601.t39 t5601.t40))
% 32.29/32.51 (step t5601.t42 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule contraction :premises (t5601.t41))
% 32.29/32.51 (step t5601.t43 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule implies :premises (t5601.t42))
% 32.29/32.51 (step t5601.t44 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule and_neg)
% 32.29/32.51 (step t5601.t45 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule resolution :premises (t5601.t44 t5601.a1 t5601.a0))
% 32.29/32.51 (step t5601.t46 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t5601.t43 t5601.t45))
% 32.29/32.51 (step t5601.t47 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5601.t16 t5601.a5 t5601.t31 t5601.t46 t5601.a6 t5601.a4))
% 32.29/32.51 (step t5601.t48 (cl (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5601.t15 t5601.t47))
% 32.29/32.51 (step t5601 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule subproof :discharge (t5601.a0 t5601.a1 t5601.a2 t5601.a3 t5601.a4 t5601.a5 t5601.a6))
% 32.29/32.51 (step t5602 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5603 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5604 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5605 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5606 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.51 (step t5607 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5608 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5609 (cl (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))))) :rule resolution :premises (t5601 t5602 t5603 t5604 t5605 t5606 t5607 t5608))
% 32.29/32.51 (step t5610 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule reordering :premises (t5609))
% 32.29/32.51 (step t5611 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule contraction :premises (t5610))
% 32.29/32.51 (step t5612 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5600 t5611))
% 32.29/32.51 (step t5613 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5614 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t5612 t5613))
% 32.29/32.51 (step t5615 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule contraction :premises (t5614))
% 32.29/32.51 (step t5616 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20)) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule implies :premises (t5615))
% 32.29/32.51 (step t5617 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5599 t5616))
% 32.29/32.51 (step t5618 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5619 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5620 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5621 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.29/32.51 (step t5622 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))))) :rule or_neg)
% 32.29/32.51 (step t5623 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule or_neg)
% 32.29/32.51 (step t5624 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e20 (tptp.h1 tptp.e14))))) :rule or_neg)
% 32.29/32.51 (step t5625 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule or_neg)
% 32.29/32.51 (step t5626 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t5617 t5618 t5619 t5620 t5621 t5622 t5623 t5624 t5625))
% 32.29/32.51 (step t5627 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule contraction :premises (t5626))
% 32.29/32.51 (step t5628 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t5594 t5598 t5627))
% 32.29/32.51 (step t5629 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule or :premises (t5628))
% 32.29/32.51 (step t5630 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule reordering :premises (t5629))
% 32.29/32.51 (step t5631 (cl (not (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))))) (not (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.51 (step t5632 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule refl)
% 32.29/32.51 (step t5633 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5634 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule equiv1 :premises (t5633))
% 32.29/32.51 (step t5635 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) :rule all_simplify)
% 32.29/32.51 (step t5636 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule refl)
% 32.29/32.51 (step t5637 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.29/32.51 (step t5638 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t5636 t5637))
% 32.29/32.51 (step t5639 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true)) :rule all_simplify)
% 32.29/32.51 (step t5640 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) true)) :rule trans :premises (t5638 t5639))
% 32.29/32.51 (step t5641 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true)) :rule trans :premises (t5635 t5640))
% 32.29/32.51 (step t5642 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5634 t5641))
% 32.29/32.51 (step t5643 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule refl)
% 32.29/32.51 (step t5644 (cl (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))))) :rule cong :premises (t5595 t222 t5632 t5642 t5596 t5643))
% 32.29/32.51 (step t5645 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule and_neg)
% 32.29/32.51 (step t5646 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5647)
% 32.29/32.51 (assume t5647.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.51 (assume t5647.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (assume t5647.a2 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.51 (assume t5647.a3 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))
% 32.29/32.51 (assume t5647.a4 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.51 (step t5647.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5647.t2)
% 32.29/32.51 (assume t5647.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))
% 32.29/32.51 (assume t5647.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (assume t5647.t2.a2 (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))
% 32.29/32.51 (assume t5647.t2.a3 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.51 (assume t5647.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.51 (step t5647.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) false) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.51 (step t5647.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) false)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule equiv1 :premises (t5647.t2.t1))
% 32.29/32.51 (step t5647.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5647.t2.a1))
% 32.29/32.51 (step t5647.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t5647.t2.t3))
% 32.29/32.51 (step t5647.t2.t5 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t5647.t2.a3))
% 32.29/32.51 (step t5647.t2.t6 (cl (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) :rule symm :premises (t5647.t2.a2))
% 32.29/32.51 (step t5647.t2.t7 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule symm :premises (t5647.t2.t6))
% 32.29/32.51 (step t5647.t2.t8 (cl (= (tptp.h1 tptp.e14) (tptp.op2 tptp.e21 tptp.e24))) :rule trans :premises (t5647.t2.t5 t5647.t2.t7))
% 32.29/32.51 (step t5647.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.h1 tptp.e14))) :rule symm :premises (t5647.t2.t8))
% 32.29/32.51 (step t5647.t2.t10 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t5647.t2.a4))
% 32.29/32.51 (step t5647.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.h1 tptp.e14))) :rule trans :premises (t5647.t2.t10 t5647.t2.a3))
% 32.29/32.51 (step t5647.t2.t12 (cl (= (tptp.h1 tptp.e14) (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t5647.t2.t11))
% 32.29/32.51 (step t5647.t2.t13 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e23 tptp.e21))) :rule trans :premises (t5647.t2.t9 t5647.t2.t12))
% 32.29/32.51 (step t5647.t2.t14 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e21 tptp.e24))) :rule symm :premises (t5647.t2.t13))
% 32.29/32.51 (step t5647.t2.t15 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule cong :premises (t5647.t2.t4 t5647.t2.t14))
% 32.29/32.51 (step t5647.t2.t16 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5647.t2.t17 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv2 :premises (t5647.t2.t16))
% 32.29/32.51 (step t5647.t2.t18 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule not_not)
% 32.29/32.51 (step t5647.t2.t19 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t5647.t2.t17 t5647.t2.t18))
% 32.29/32.51 (step t5647.t2.t20 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false)) :rule resolution :premises (t5647.t2.t19 t5647.t2.a0))
% 32.29/32.51 (step t5647.t2.t21 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) false)) :rule trans :premises (t5647.t2.t15 t5647.t2.t20))
% 32.29/32.51 (step t5647.t2.t22 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t5647.t2.t2 t5647.t2.t21))
% 32.29/32.51 (step t5647.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule subproof :discharge (t5647.t2.a0 t5647.t2.a1 t5647.t2.a2 t5647.t2.a3 t5647.t2.a4))
% 32.29/32.51 (step t5647.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5647.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5647.t5 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5647.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5647.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5647.t8 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t5647.t2 t5647.t3 t5647.t4 t5647.t5 t5647.t6 t5647.t7))
% 32.29/32.51 (step t5647.t9 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule reordering :premises (t5647.t8))
% 32.29/32.51 (step t5647.t10 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule contraction :premises (t5647.t9))
% 32.29/32.51 (step t5647.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t5647.t1 t5647.t10))
% 32.29/32.51 (step t5647.t12 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule implies_neg2)
% 32.29/32.51 (step t5647.t13 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t5647.t11 t5647.t12))
% 32.29/32.51 (step t5647.t14 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule contraction :premises (t5647.t13))
% 32.29/32.51 (step t5647.t15 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule implies :premises (t5647.t14))
% 32.29/32.51 (step t5647.t16 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule and_neg)
% 32.29/32.51 (step t5647.t17 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5647.t18)
% 32.29/32.51 (assume t5647.t18.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.51 (assume t5647.t18.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.51 (step t5647.t18.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t5647.t18.a1))
% 32.29/32.51 (step t5647.t18.t2 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t5647.t18.t1))
% 32.29/32.51 (step t5647.t18.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5647.t18.a0))
% 32.29/32.51 (step t5647.t18.t4 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.51 (step t5647.t18.t5 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t5647.t18.t3 t5647.t18.t4))
% 32.29/32.51 (step t5647.t18.t6 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule trans :premises (t5647.t18.t2 t5647.t18.t5))
% 32.29/32.51 (step t5647.t18 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule subproof :discharge (t5647.t18.a0 t5647.t18.a1))
% 32.29/32.51 (step t5647.t19 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5647.t20 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5647.t21 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule resolution :premises (t5647.t18 t5647.t19 t5647.t20))
% 32.29/32.51 (step t5647.t22 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule reordering :premises (t5647.t21))
% 32.29/32.51 (step t5647.t23 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule contraction :premises (t5647.t22))
% 32.29/32.51 (step t5647.t24 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t5647.t17 t5647.t23))
% 32.29/32.51 (step t5647.t25 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies_neg2)
% 32.29/32.51 (step t5647.t26 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t5647.t24 t5647.t25))
% 32.29/32.51 (step t5647.t27 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule contraction :premises (t5647.t26))
% 32.29/32.51 (step t5647.t28 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule implies :premises (t5647.t27))
% 32.29/32.51 (step t5647.t29 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule and_neg)
% 32.29/32.51 (step t5647.t30 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule resolution :premises (t5647.t29 t5647.a1 t5647.a0))
% 32.29/32.51 (step t5647.t31 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t5647.t28 t5647.t30))
% 32.29/32.51 (step t5647.t32 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t5647.t16 t5647.a3 t5647.a1 t5647.t31 t5647.a4 t5647.a2))
% 32.29/32.51 (step t5647.t33 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t5647.t15 t5647.t32))
% 32.29/32.51 (step t5647 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule subproof :discharge (t5647.a0 t5647.a1 t5647.a2 t5647.a3 t5647.a4))
% 32.29/32.51 (step t5648 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5649 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.51 (step t5650 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5651 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and_pos)
% 32.29/32.51 (step t5652 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.51 (step t5653 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))))) :rule resolution :premises (t5647 t5648 t5649 t5650 t5651 t5652))
% 32.29/32.51 (step t5654 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule reordering :premises (t5653))
% 32.29/32.51 (step t5655 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule contraction :premises (t5654))
% 32.29/32.51 (step t5656 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t5646 t5655))
% 32.29/32.51 (step t5657 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule implies_neg2)
% 32.29/32.51 (step t5658 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t5656 t5657))
% 32.29/32.51 (step t5659 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule contraction :premises (t5658))
% 32.29/32.51 (step t5660 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule implies :premises (t5659))
% 32.29/32.51 (step t5661 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t5645 t5660))
% 32.29/32.51 (step t5662 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5663 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.51 (step t5664 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule or_neg)
% 32.29/32.51 (step t5665 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule or_neg)
% 32.29/32.51 (step t5666 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e20 (tptp.h1 tptp.e14))))) :rule or_neg)
% 32.29/32.51 (step t5667 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule or_neg)
% 32.29/32.51 (step t5668 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t5661 t5662 t5663 t5664 t5665 t5666 t5667))
% 32.29/32.51 (step t5669 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule contraction :premises (t5668))
% 32.29/32.51 (step t5670 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t5631 t5644 t5669))
% 32.29/32.51 (step t5671 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)))) :rule or :premises (t5670))
% 32.29/32.51 (step t5672 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule reordering :premises (t5671))
% 32.29/32.51 (step t5673 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and :premises (t459))
% 32.29/32.51 (step t5674 (cl (not (= (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (or (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))))) (not (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) (or (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule equiv_pos2)
% 32.29/32.51 (step t5675 (cl (= (= (= (not (not (= tptp.e21 tptp.e23))) (= tptp.e21 tptp.e23)) true) (= (not (not (= tptp.e21 tptp.e23))) (= tptp.e21 tptp.e23)))) :rule equiv_simplify)
% 32.29/32.51 (step t5676 (cl (not (= (= (not (not (= tptp.e21 tptp.e23))) (= tptp.e21 tptp.e23)) true)) (= (not (not (= tptp.e21 tptp.e23))) (= tptp.e21 tptp.e23))) :rule equiv1 :premises (t5675))
% 32.29/32.51 (step t5677 (cl (= (= (not (not (= tptp.e21 tptp.e23))) (= tptp.e21 tptp.e23)) (= (= tptp.e21 tptp.e23) (not (not (= tptp.e21 tptp.e23)))))) :rule all_simplify)
% 32.29/32.51 (step t5678 (cl (= (= tptp.e21 tptp.e23) (= tptp.e21 tptp.e23))) :rule refl)
% 32.29/32.51 (step t5679 (cl (= (not (not (= tptp.e21 tptp.e23))) (= tptp.e21 tptp.e23))) :rule all_simplify)
% 32.29/32.51 (step t5680 (cl (= (= (= tptp.e21 tptp.e23) (not (not (= tptp.e21 tptp.e23)))) (= (= tptp.e21 tptp.e23) (= tptp.e21 tptp.e23)))) :rule cong :premises (t5678 t5679))
% 32.29/32.51 (step t5681 (cl (= (= (= tptp.e21 tptp.e23) (= tptp.e21 tptp.e23)) true)) :rule all_simplify)
% 32.29/32.51 (step t5682 (cl (= (= (= tptp.e21 tptp.e23) (not (not (= tptp.e21 tptp.e23)))) true)) :rule trans :premises (t5680 t5681))
% 32.29/32.51 (step t5683 (cl (= (= (not (not (= tptp.e21 tptp.e23))) (= tptp.e21 tptp.e23)) true)) :rule trans :premises (t5677 t5682))
% 32.29/32.51 (step t5684 (cl (= (not (not (= tptp.e21 tptp.e23))) (= tptp.e21 tptp.e23))) :rule resolution :premises (t5676 t5683))
% 32.29/32.51 (step t5685 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule refl)
% 32.29/32.51 (step t5686 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule refl)
% 32.29/32.51 (step t5687 (cl (= (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (or (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))))) :rule cong :premises (t5684 t5685 t4 t5686))
% 32.29/32.51 (step t5688 (cl (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule and_neg)
% 32.29/32.51 (step t5689 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5690)
% 32.29/32.51 (assume t5690.a0 (not (= tptp.e21 tptp.e23)))
% 32.29/32.51 (assume t5690.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.51 (assume t5690.a2 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (step t5690.t1 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5690.t2)
% 32.29/32.51 (assume t5690.t2.a0 (not (= tptp.e21 tptp.e23)))
% 32.29/32.51 (assume t5690.t2.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))
% 32.29/32.51 (step t5690.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) false) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.51 (step t5690.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) false)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule equiv1 :premises (t5690.t2.t1))
% 32.29/32.51 (step t5690.t2.t3 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.51 (step t5690.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23)) :rule symm :premises (t5690.t2.a1))
% 32.29/32.51 (step t5690.t2.t5 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule symm :premises (t5690.t2.t4))
% 32.29/32.51 (step t5690.t2.t6 (cl (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23)) :rule symm :premises (t5690.t2.t5))
% 32.29/32.51 (step t5690.t2.t7 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 tptp.e23))) :rule cong :premises (t5690.t2.t3 t5690.t2.t6))
% 32.29/32.51 (step t5690.t2.t8 (cl (= (= (= tptp.e21 tptp.e23) false) (not (= tptp.e21 tptp.e23)))) :rule equiv_simplify)
% 32.29/32.51 (step t5690.t2.t9 (cl (= (= tptp.e21 tptp.e23) false) (not (not (= tptp.e21 tptp.e23)))) :rule equiv2 :premises (t5690.t2.t8))
% 32.29/32.51 (step t5690.t2.t10 (cl (not (not (not (= tptp.e21 tptp.e23)))) (= tptp.e21 tptp.e23)) :rule not_not)
% 32.29/32.51 (step t5690.t2.t11 (cl (= (= tptp.e21 tptp.e23) false) (= tptp.e21 tptp.e23)) :rule resolution :premises (t5690.t2.t9 t5690.t2.t10))
% 32.29/32.51 (step t5690.t2.t12 (cl (= (= tptp.e21 tptp.e23) false)) :rule resolution :premises (t5690.t2.t11 t5690.t2.a0))
% 32.29/32.51 (step t5690.t2.t13 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) false)) :rule trans :premises (t5690.t2.t7 t5690.t2.t12))
% 32.29/32.51 (step t5690.t2.t14 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t5690.t2.t2 t5690.t2.t13))
% 32.29/32.51 (step t5690.t2 (cl (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule subproof :discharge (t5690.t2.a0 t5690.t2.a1))
% 32.29/32.51 (step t5690.t3 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.51 (step t5690.t4 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule and_pos)
% 32.29/32.51 (step t5690.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t5690.t2 t5690.t3 t5690.t4))
% 32.29/32.51 (step t5690.t6 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule reordering :premises (t5690.t5))
% 32.29/32.51 (step t5690.t7 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule contraction :premises (t5690.t6))
% 32.29/32.51 (step t5690.t8 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t5690.t1 t5690.t7))
% 32.29/32.51 (step t5690.t9 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule implies_neg2)
% 32.29/32.51 (step t5690.t10 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t5690.t8 t5690.t9))
% 32.29/32.51 (step t5690.t11 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule contraction :premises (t5690.t10))
% 32.29/32.51 (step t5690.t12 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies :premises (t5690.t11))
% 32.29/32.51 (step t5690.t13 (cl (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule and_neg)
% 32.29/32.51 (step t5690.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5690.t15)
% 32.29/32.51 (assume t5690.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (assume t5690.t15.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.51 (step t5690.t15.t1 (cl (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23)) :rule symm :premises (t5690.t15.a1))
% 32.29/32.51 (step t5690.t15.t2 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule symm :premises (t5690.t15.t1))
% 32.29/32.51 (step t5690.t15.t3 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.51 (step t5690.t15.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t5690.t15.a0))
% 32.29/32.51 (step t5690.t15.t5 (cl (= (tptp.op2 tptp.e23 tptp.unit2) (tptp.op2 tptp.e23 tptp.e22))) :rule cong :premises (t5690.t15.t3 t5690.t15.t4))
% 32.29/32.51 (step t5690.t15.t6 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule trans :premises (t5690.t15.t2 t5690.t15.t5))
% 32.29/32.51 (step t5690.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule subproof :discharge (t5690.t15.a0 t5690.t15.a1))
% 32.29/32.51 (step t5690.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5690.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5690.t18 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule resolution :premises (t5690.t15 t5690.t16 t5690.t17))
% 32.29/32.51 (step t5690.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule reordering :premises (t5690.t18))
% 32.29/32.51 (step t5690.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule contraction :premises (t5690.t19))
% 32.29/32.51 (step t5690.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t5690.t14 t5690.t20))
% 32.29/32.51 (step t5690.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies_neg2)
% 32.29/32.51 (step t5690.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t5690.t21 t5690.t22))
% 32.29/32.51 (step t5690.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule contraction :premises (t5690.t23))
% 32.29/32.51 (step t5690.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule implies :premises (t5690.t24))
% 32.29/32.51 (step t5690.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule and_neg)
% 32.29/32.51 (step t5690.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule resolution :premises (t5690.t26 t5690.a2 t5690.a1))
% 32.29/32.51 (step t5690.t28 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t5690.t25 t5690.t27))
% 32.29/32.51 (step t5690.t29 (cl (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t5690.t13 t5690.a0 t5690.t28))
% 32.29/32.51 (step t5690.t30 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t5690.t12 t5690.t29))
% 32.29/32.51 (step t5690 (cl (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule subproof :discharge (t5690.a0 t5690.a1 t5690.a2))
% 32.29/32.51 (step t5691 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (= tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.51 (step t5692 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5693 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5694 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2)))) :rule resolution :premises (t5690 t5691 t5692 t5693))
% 32.29/32.51 (step t5695 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule reordering :premises (t5694))
% 32.29/32.51 (step t5696 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule contraction :premises (t5695))
% 32.29/32.51 (step t5697 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t5689 t5696))
% 32.29/32.51 (step t5698 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule implies_neg2)
% 32.29/32.51 (step t5699 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t5697 t5698))
% 32.29/32.51 (step t5700 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule contraction :premises (t5699))
% 32.29/32.51 (step t5701 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies :premises (t5700))
% 32.29/32.51 (step t5702 (cl (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t5688 t5701))
% 32.29/32.51 (step t5703 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (not (= tptp.e21 tptp.e23))))) :rule or_neg)
% 32.29/32.51 (step t5704 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule or_neg)
% 32.29/32.51 (step t5705 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.51 (step t5706 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule or_neg)
% 32.29/32.51 (step t5707 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t5702 t5703 t5704 t5705 t5706))
% 32.29/32.51 (step t5708 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule contraction :premises (t5707))
% 32.29/32.51 (step t5709 (cl (or (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t5674 t5687 t5708))
% 32.29/32.51 (step t5710 (cl (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)))) :rule or :premises (t5709))
% 32.29/32.51 (step t5711 (cl (= tptp.e21 tptp.e23) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t5710))
% 32.29/32.51 (step t5712 (cl (not (= (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (or (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))))) (not (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) (or (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule equiv_pos2)
% 32.29/32.51 (step t5713 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule refl)
% 32.29/32.51 (step t5714 (cl (= (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (or (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))))) :rule cong :premises (t5684 t5448 t5713))
% 32.29/32.51 (step t5715 (cl (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule and_neg)
% 32.29/32.51 (step t5716 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5717)
% 32.29/32.51 (assume t5717.a0 (not (= tptp.e21 tptp.e23)))
% 32.29/32.51 (assume t5717.a1 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.51 (step t5717.t1 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5717.t2)
% 32.29/32.51 (assume t5717.t2.a0 (not (= tptp.e21 tptp.e23)))
% 32.29/32.51 (assume t5717.t2.a1 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.51 (step t5717.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) false) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5717.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) false)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule equiv1 :premises (t5717.t2.t1))
% 32.29/32.51 (step t5717.t2.t3 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.51 (step t5717.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23)) :rule symm :premises (t5717.t2.a1))
% 32.29/32.51 (step t5717.t2.t5 (cl (= (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 tptp.e23))) :rule cong :premises (t5717.t2.t3 t5717.t2.t4))
% 32.29/32.51 (step t5717.t2.t6 (cl (= (= (= tptp.e21 tptp.e23) false) (not (= tptp.e21 tptp.e23)))) :rule equiv_simplify)
% 32.29/32.51 (step t5717.t2.t7 (cl (= (= tptp.e21 tptp.e23) false) (not (not (= tptp.e21 tptp.e23)))) :rule equiv2 :premises (t5717.t2.t6))
% 32.29/32.51 (step t5717.t2.t8 (cl (not (not (not (= tptp.e21 tptp.e23)))) (= tptp.e21 tptp.e23)) :rule not_not)
% 32.29/32.51 (step t5717.t2.t9 (cl (= (= tptp.e21 tptp.e23) false) (= tptp.e21 tptp.e23)) :rule resolution :premises (t5717.t2.t7 t5717.t2.t8))
% 32.29/32.51 (step t5717.t2.t10 (cl (= (= tptp.e21 tptp.e23) false)) :rule resolution :premises (t5717.t2.t9 t5717.t2.a0))
% 32.29/32.51 (step t5717.t2.t11 (cl (= (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) false)) :rule trans :premises (t5717.t2.t5 t5717.t2.t10))
% 32.29/32.51 (step t5717.t2.t12 (cl (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5717.t2.t2 t5717.t2.t11))
% 32.29/32.51 (step t5717.t2 (cl (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule subproof :discharge (t5717.t2.a0 t5717.t2.a1))
% 32.29/32.51 (step t5717.t3 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.51 (step t5717.t4 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.51 (step t5717.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5717.t2 t5717.t3 t5717.t4))
% 32.29/32.51 (step t5717.t6 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule reordering :premises (t5717.t5))
% 32.29/32.51 (step t5717.t7 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule contraction :premises (t5717.t6))
% 32.29/32.51 (step t5717.t8 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5717.t1 t5717.t7))
% 32.29/32.51 (step t5717.t9 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5717.t10 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5717.t8 t5717.t9))
% 32.29/32.51 (step t5717.t11 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule contraction :premises (t5717.t10))
% 32.29/32.51 (step t5717.t12 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies :premises (t5717.t11))
% 32.29/32.51 (step t5717.t13 (cl (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule and_neg)
% 32.29/32.51 (step t5717.t14 (cl (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5717.t13 t5717.a0 t5717.a1))
% 32.29/32.51 (step t5717.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5717.t12 t5717.t14))
% 32.29/32.51 (step t5717 (cl (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule subproof :discharge (t5717.a0 t5717.a1))
% 32.29/32.51 (step t5718 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.51 (step t5719 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.51 (step t5720 (cl (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5717 t5718 t5719))
% 32.29/32.51 (step t5721 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule reordering :premises (t5720))
% 32.29/32.51 (step t5722 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule contraction :premises (t5721))
% 32.29/32.51 (step t5723 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5716 t5722))
% 32.29/32.51 (step t5724 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5725 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5723 t5724))
% 32.29/32.51 (step t5726 (cl (=> (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule contraction :premises (t5725))
% 32.29/32.51 (step t5727 (cl (not (and (not (= tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies :premises (t5726))
% 32.29/32.51 (step t5728 (cl (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5715 t5727))
% 32.29/32.51 (step t5729 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (not (= tptp.e21 tptp.e23))))) :rule or_neg)
% 32.29/32.51 (step t5730 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))))) :rule or_neg)
% 32.29/32.51 (step t5731 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule or_neg)
% 32.29/32.51 (step t5732 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5728 t5729 t5730 t5731))
% 32.29/32.51 (step t5733 (cl (or (not (not (= tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule contraction :premises (t5732))
% 32.29/32.51 (step t5734 (cl (or (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5712 t5714 t5733))
% 32.29/32.51 (step t5735 (cl (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)))) :rule or :premises (t5734))
% 32.29/32.51 (step t5736 (cl (= tptp.e21 tptp.e23) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule reordering :premises (t5735))
% 32.29/32.51 (step t5737 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_pos2)
% 32.29/32.51 (step t5738 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))))) :rule refl)
% 32.29/32.51 (step t5739 (cl (= (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) true) (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5740 (cl (not (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) true)) (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) :rule equiv1 :premises (t5739))
% 32.29/32.51 (step t5741 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))))) :rule all_simplify)
% 32.29/32.51 (step t5742 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) :rule refl)
% 32.29/32.51 (step t5743 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.29/32.51 (step t5744 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t5742 t5743))
% 32.29/32.51 (step t5745 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) true)) :rule all_simplify)
% 32.29/32.51 (step t5746 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) true)) :rule trans :premises (t5744 t5745))
% 32.29/32.51 (step t5747 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) true)) :rule trans :premises (t5741 t5746))
% 32.29/32.51 (step t5748 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t5740 t5747))
% 32.29/32.51 (step t5749 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule refl)
% 32.29/32.51 (step t5750 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))))) :rule cong :premises (t5738 t5748 t5749))
% 32.29/32.51 (step t5751 (cl (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) :rule and_neg)
% 32.29/32.51 (step t5752 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5753)
% 32.29/32.51 (assume t5753.a0 (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))
% 32.29/32.51 (assume t5753.a1 (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))
% 32.29/32.51 (step t5753.t1 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5753.t2)
% 32.29/32.51 (assume t5753.t2.a0 (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))
% 32.29/32.51 (assume t5753.t2.a1 (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))
% 32.29/32.51 (step t5753.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) false) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5753.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) false)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule equiv1 :premises (t5753.t2.t1))
% 32.29/32.51 (step t5753.t2.t3 (cl (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21)) :rule symm :premises (t5753.t2.a1))
% 32.29/32.51 (step t5753.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule symm :premises (t5753.t2.t3))
% 32.29/32.51 (step t5753.t2.t5 (cl (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule refl)
% 32.29/32.51 (step t5753.t2.t6 (cl (= (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) :rule cong :premises (t5753.t2.t4 t5753.t2.t5))
% 32.29/32.51 (step t5753.t2.t7 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) false) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5753.t2.t8 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv2 :premises (t5753.t2.t7))
% 32.29/32.51 (step t5753.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) :rule not_not)
% 32.29/32.51 (step t5753.t2.t10 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) false) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) :rule resolution :premises (t5753.t2.t8 t5753.t2.t9))
% 32.29/32.51 (step t5753.t2.t11 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) false)) :rule resolution :premises (t5753.t2.t10 t5753.t2.a0))
% 32.29/32.51 (step t5753.t2.t12 (cl (= (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) false)) :rule trans :premises (t5753.t2.t6 t5753.t2.t11))
% 32.29/32.51 (step t5753.t2.t13 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t5753.t2.t2 t5753.t2.t12))
% 32.29/32.51 (step t5753.t2 (cl (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule subproof :discharge (t5753.t2.a0 t5753.t2.a1))
% 32.29/32.51 (step t5753.t3 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) :rule and_pos)
% 32.29/32.51 (step t5753.t4 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5753.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))))) :rule resolution :premises (t5753.t2 t5753.t3 t5753.t4))
% 32.29/32.51 (step t5753.t6 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule reordering :premises (t5753.t5))
% 32.29/32.51 (step t5753.t7 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule contraction :premises (t5753.t6))
% 32.29/32.51 (step t5753.t8 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t5753.t1 t5753.t7))
% 32.29/32.51 (step t5753.t9 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5753.t10 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t5753.t8 t5753.t9))
% 32.29/32.51 (step t5753.t11 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule contraction :premises (t5753.t10))
% 32.29/32.51 (step t5753.t12 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule implies :premises (t5753.t11))
% 32.29/32.51 (step t5753.t13 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule and_neg)
% 32.29/32.51 (step t5753.t14 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t5753.t13 t5753.a1 t5753.a0))
% 32.29/32.51 (step t5753.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t5753.t12 t5753.t14))
% 32.29/32.51 (step t5753 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule subproof :discharge (t5753.a0 t5753.a1))
% 32.29/32.51 (step t5754 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5755 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) :rule and_pos)
% 32.29/32.51 (step t5756 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))) (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))))) :rule resolution :premises (t5753 t5754 t5755))
% 32.29/32.51 (step t5757 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule reordering :premises (t5756))
% 32.29/32.51 (step t5758 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule contraction :premises (t5757))
% 32.29/32.51 (step t5759 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t5752 t5758))
% 32.29/32.51 (step t5760 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5761 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t5759 t5760))
% 32.29/32.51 (step t5762 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule contraction :premises (t5761))
% 32.29/32.51 (step t5763 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20))))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule implies :premises (t5762))
% 32.29/32.51 (step t5764 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t5751 t5763))
% 32.29/32.51 (step t5765 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))))) :rule or_neg)
% 32.29/32.51 (step t5766 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))))) :rule or_neg)
% 32.29/32.51 (step t5767 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule or_neg)
% 32.29/32.51 (step t5768 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t5764 t5765 t5766 t5767))
% 32.29/32.51 (step t5769 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule contraction :premises (t5768))
% 32.29/32.51 (step t5770 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t5737 t5750 t5769))
% 32.29/32.51 (step t5771 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)))) :rule or :premises (t5770))
% 32.29/32.51 (step t5772 (cl (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule reordering :premises (t5771))
% 32.29/32.51 (step t5773 (cl (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e22 tptp.e20)))) :rule and :premises (t459))
% 32.29/32.51 (step t5774 (cl (not (= (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))))) (not (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_pos2)
% 32.29/32.51 (step t5775 (cl (= (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) true) (= (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5776 (cl (not (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) true)) (= (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) :rule equiv1 :premises (t5775))
% 32.29/32.51 (step t5777 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))))) :rule all_simplify)
% 32.29/32.51 (step t5778 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) :rule refl)
% 32.29/32.51 (step t5779 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.29/32.51 (step t5780 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) :rule cong :premises (t5778 t5779))
% 32.29/32.51 (step t5781 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) true)) :rule all_simplify)
% 32.29/32.51 (step t5782 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) true)) :rule trans :premises (t5780 t5781))
% 32.29/32.51 (step t5783 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) true)) :rule trans :premises (t5777 t5782))
% 32.29/32.51 (step t5784 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5776 t5783))
% 32.29/32.51 (step t5785 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule refl)
% 32.29/32.51 (step t5786 (cl (= (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))))) :rule cong :premises (t5632 t5784 t5785))
% 32.29/32.51 (step t5787 (cl (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) :rule and_neg)
% 32.29/32.51 (step t5788 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5789)
% 32.29/32.51 (assume t5789.a0 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.51 (assume t5789.a1 (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))
% 32.29/32.51 (step t5789.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5789.t2)
% 32.29/32.51 (assume t5789.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))
% 32.29/32.51 (assume t5789.t2.a1 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.51 (step t5789.t2.t1 (cl (= (= (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) false) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5789.t2.t2 (cl (not (= (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) false)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule equiv1 :premises (t5789.t2.t1))
% 32.29/32.51 (step t5789.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t5789.t2.a1))
% 32.29/32.51 (step t5789.t2.t4 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t5789.t2.t3))
% 32.29/32.51 (step t5789.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) :rule refl)
% 32.29/32.51 (step t5789.t2.t6 (cl (= (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) :rule cong :premises (t5789.t2.t4 t5789.t2.t5))
% 32.29/32.51 (step t5789.t2.t7 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) false) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5789.t2.t8 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv2 :premises (t5789.t2.t7))
% 32.29/32.51 (step t5789.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) :rule not_not)
% 32.29/32.51 (step t5789.t2.t10 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) false) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) :rule resolution :premises (t5789.t2.t8 t5789.t2.t9))
% 32.29/32.51 (step t5789.t2.t11 (cl (= (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) false)) :rule resolution :premises (t5789.t2.t10 t5789.t2.a0))
% 32.29/32.51 (step t5789.t2.t12 (cl (= (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) false)) :rule trans :premises (t5789.t2.t6 t5789.t2.t11))
% 32.29/32.51 (step t5789.t2.t13 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5789.t2.t2 t5789.t2.t12))
% 32.29/32.51 (step t5789.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule subproof :discharge (t5789.t2.a0 t5789.t2.a1))
% 32.29/32.51 (step t5789.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) :rule and_pos)
% 32.29/32.51 (step t5789.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5789.t5 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t5789.t2 t5789.t3 t5789.t4))
% 32.29/32.51 (step t5789.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t5789.t5))
% 32.29/32.51 (step t5789.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule contraction :premises (t5789.t6))
% 32.29/32.51 (step t5789.t8 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5789.t1 t5789.t7))
% 32.29/32.51 (step t5789.t9 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5789.t10 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t5789.t8 t5789.t9))
% 32.29/32.51 (step t5789.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t5789.t10))
% 32.29/32.51 (step t5789.t12 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies :premises (t5789.t11))
% 32.29/32.51 (step t5789.t13 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule and_neg)
% 32.29/32.51 (step t5789.t14 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t5789.t13 t5789.a1 t5789.a0))
% 32.29/32.51 (step t5789.t15 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5789.t12 t5789.t14))
% 32.29/32.51 (step t5789 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule subproof :discharge (t5789.a0 t5789.a1))
% 32.29/32.51 (step t5790 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.51 (step t5791 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) :rule and_pos)
% 32.29/32.51 (step t5792 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))))) :rule resolution :premises (t5789 t5790 t5791))
% 32.29/32.51 (step t5793 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t5792))
% 32.29/32.51 (step t5794 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule contraction :premises (t5793))
% 32.29/32.51 (step t5795 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5788 t5794))
% 32.29/32.51 (step t5796 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5797 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t5795 t5796))
% 32.29/32.51 (step t5798 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t5797))
% 32.29/32.51 (step t5799 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20))))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies :premises (t5798))
% 32.29/32.51 (step t5800 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5787 t5799))
% 32.29/32.51 (step t5801 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule or_neg)
% 32.29/32.51 (step t5802 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))))) :rule or_neg)
% 32.29/32.51 (step t5803 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule or_neg)
% 32.29/32.51 (step t5804 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t5800 t5801 t5802 t5803))
% 32.29/32.51 (step t5805 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t5804))
% 32.29/32.51 (step t5806 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t5774 t5786 t5805))
% 32.29/32.51 (step t5807 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)))) :rule or :premises (t5806))
% 32.29/32.51 (step t5808 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule reordering :premises (t5807))
% 32.29/32.51 (step t5809 (cl (not (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e23 tptp.e20)))) :rule and :premises (t459))
% 32.29/32.51 (step t5810 (cl (not (= (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))))) (not (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_pos2)
% 32.29/32.51 (step t5811 (cl (= (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) true) (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5812 (cl (not (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) true)) (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) :rule equiv1 :premises (t5811))
% 32.29/32.51 (step t5813 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))))) :rule all_simplify)
% 32.29/32.51 (step t5814 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) :rule refl)
% 32.29/32.51 (step t5815 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) :rule all_simplify)
% 32.29/32.51 (step t5816 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) :rule cong :premises (t5814 t5815))
% 32.29/32.51 (step t5817 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) true)) :rule all_simplify)
% 32.29/32.51 (step t5818 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) true)) :rule trans :premises (t5816 t5817))
% 32.29/32.51 (step t5819 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) true)) :rule trans :premises (t5813 t5818))
% 32.29/32.51 (step t5820 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5812 t5819))
% 32.29/32.51 (step t5821 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule refl)
% 32.29/32.51 (step t5822 (cl (= (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))))) :rule cong :premises (t5685 t4 t5820 t5821))
% 32.29/32.51 (step t5823 (cl (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) :rule and_neg)
% 32.29/32.51 (step t5824 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5825)
% 32.29/32.51 (assume t5825.a0 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.51 (assume t5825.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (assume t5825.a2 (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))
% 32.29/32.51 (step t5825.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5825.t2)
% 32.29/32.51 (assume t5825.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))
% 32.29/32.51 (assume t5825.t2.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))
% 32.29/32.51 (step t5825.t2.t1 (cl (= (= (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) false) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5825.t2.t2 (cl (not (= (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) false)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule equiv1 :premises (t5825.t2.t1))
% 32.29/32.51 (step t5825.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23)) :rule symm :premises (t5825.t2.a1))
% 32.29/32.51 (step t5825.t2.t4 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule symm :premises (t5825.t2.t3))
% 32.29/32.51 (step t5825.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) :rule refl)
% 32.29/32.51 (step t5825.t2.t6 (cl (= (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) :rule cong :premises (t5825.t2.t4 t5825.t2.t5))
% 32.29/32.51 (step t5825.t2.t7 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) false) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.51 (step t5825.t2.t8 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) :rule equiv2 :premises (t5825.t2.t7))
% 32.29/32.51 (step t5825.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) :rule not_not)
% 32.29/32.51 (step t5825.t2.t10 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) false) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) :rule resolution :premises (t5825.t2.t8 t5825.t2.t9))
% 32.29/32.51 (step t5825.t2.t11 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) false)) :rule resolution :premises (t5825.t2.t10 t5825.t2.a0))
% 32.29/32.51 (step t5825.t2.t12 (cl (= (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) false)) :rule trans :premises (t5825.t2.t6 t5825.t2.t11))
% 32.29/32.51 (step t5825.t2.t13 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5825.t2.t2 t5825.t2.t12))
% 32.29/32.51 (step t5825.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule subproof :discharge (t5825.t2.a0 t5825.t2.a1))
% 32.29/32.51 (step t5825.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) :rule and_pos)
% 32.29/32.51 (step t5825.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule and_pos)
% 32.29/32.51 (step t5825.t5 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t5825.t2 t5825.t3 t5825.t4))
% 32.29/32.51 (step t5825.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t5825.t5))
% 32.29/32.51 (step t5825.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule contraction :premises (t5825.t6))
% 32.29/32.51 (step t5825.t8 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5825.t1 t5825.t7))
% 32.29/32.51 (step t5825.t9 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5825.t10 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t5825.t8 t5825.t9))
% 32.29/32.51 (step t5825.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t5825.t10))
% 32.29/32.51 (step t5825.t12 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies :premises (t5825.t11))
% 32.29/32.51 (step t5825.t13 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule and_neg)
% 32.29/32.51 (step t5825.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5825.t15)
% 32.29/32.51 (assume t5825.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.51 (assume t5825.t15.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.51 (step t5825.t15.t1 (cl (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23)) :rule symm :premises (t5825.t15.a1))
% 32.29/32.51 (step t5825.t15.t2 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule symm :premises (t5825.t15.t1))
% 32.29/32.51 (step t5825.t15.t3 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.51 (step t5825.t15.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t5825.t15.a0))
% 32.29/32.51 (step t5825.t15.t5 (cl (= (tptp.op2 tptp.e23 tptp.unit2) (tptp.op2 tptp.e23 tptp.e22))) :rule cong :premises (t5825.t15.t3 t5825.t15.t4))
% 32.29/32.51 (step t5825.t15.t6 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule trans :premises (t5825.t15.t2 t5825.t15.t5))
% 32.29/32.51 (step t5825.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule subproof :discharge (t5825.t15.a0 t5825.t15.a1))
% 32.29/32.51 (step t5825.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5825.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5825.t18 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule resolution :premises (t5825.t15 t5825.t16 t5825.t17))
% 32.29/32.51 (step t5825.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule reordering :premises (t5825.t18))
% 32.29/32.51 (step t5825.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule contraction :premises (t5825.t19))
% 32.29/32.51 (step t5825.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t5825.t14 t5825.t20))
% 32.29/32.51 (step t5825.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies_neg2)
% 32.29/32.51 (step t5825.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t5825.t21 t5825.t22))
% 32.29/32.51 (step t5825.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule contraction :premises (t5825.t23))
% 32.29/32.51 (step t5825.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule implies :premises (t5825.t24))
% 32.29/32.51 (step t5825.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule and_neg)
% 32.29/32.51 (step t5825.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule resolution :premises (t5825.t26 t5825.a1 t5825.a0))
% 32.29/32.51 (step t5825.t28 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t5825.t25 t5825.t27))
% 32.29/32.51 (step t5825.t29 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t5825.t13 t5825.a2 t5825.t28))
% 32.29/32.51 (step t5825.t30 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5825.t12 t5825.t29))
% 32.29/32.51 (step t5825 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule subproof :discharge (t5825.a0 t5825.a1 t5825.a2))
% 32.29/32.51 (step t5826 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.51 (step t5827 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.51 (step t5828 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) :rule and_pos)
% 32.29/32.51 (step t5829 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))))) :rule resolution :premises (t5825 t5826 t5827 t5828))
% 32.29/32.51 (step t5830 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule reordering :premises (t5829))
% 32.29/32.51 (step t5831 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule contraction :premises (t5830))
% 32.29/32.51 (step t5832 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5824 t5831))
% 32.29/32.51 (step t5833 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule implies_neg2)
% 32.29/32.51 (step t5834 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t5832 t5833))
% 32.29/32.51 (step t5835 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t5834))
% 32.29/32.51 (step t5836 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20))))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies :premises (t5835))
% 32.29/32.51 (step t5837 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t5823 t5836))
% 32.29/32.51 (step t5838 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule or_neg)
% 32.29/32.51 (step t5839 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.51 (step t5840 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))))) :rule or_neg)
% 32.29/32.51 (step t5841 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule or_neg)
% 32.29/32.51 (step t5842 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t5837 t5838 t5839 t5840 t5841))
% 32.29/32.51 (step t5843 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule contraction :premises (t5842))
% 32.29/32.51 (step t5844 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t5810 t5822 t5843))
% 32.29/32.51 (step t5845 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)))) :rule or :premises (t5844))
% 32.29/32.51 (step t5846 (cl (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t5845))
% 32.29/32.51 (step t5847 (cl (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e20)))) :rule and :premises (t459))
% 32.29/32.51 (step t5848 (cl (not (= (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))))) (not (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.51 (step t5849 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule refl)
% 32.29/32.51 (step t5850 (cl (= (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) true) (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5851 (cl (not (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) true)) (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule equiv1 :premises (t5850))
% 32.29/32.51 (step t5852 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))))) :rule all_simplify)
% 32.29/32.51 (step t5853 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule refl)
% 32.29/32.51 (step t5854 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule all_simplify)
% 32.29/32.51 (step t5855 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule cong :premises (t5853 t5854))
% 32.29/32.51 (step t5856 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) true)) :rule all_simplify)
% 32.29/32.51 (step t5857 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) true)) :rule trans :premises (t5855 t5856))
% 32.29/32.51 (step t5858 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) true)) :rule trans :premises (t5852 t5857))
% 32.29/32.51 (step t5859 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t5851 t5858))
% 32.29/32.51 (step t5860 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule refl)
% 32.29/32.51 (step t5861 (cl (= (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))))) :rule cong :premises (t5849 t5859 t5860))
% 32.29/32.51 (step t5862 (cl (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule and_neg)
% 32.29/32.51 (step t5863 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5864)
% 32.29/32.51 (assume t5864.a0 (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.51 (assume t5864.a1 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))
% 32.29/32.51 (step t5864.t1 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies_neg1)
% 32.29/32.51 (anchor :step t5864.t2)
% 32.29/32.51 (assume t5864.t2.a0 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))
% 32.29/32.51 (assume t5864.t2.a1 (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.51 (step t5864.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) false) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5864.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) false)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule equiv1 :premises (t5864.t2.t1))
% 32.29/32.51 (step t5864.t2.t3 (cl (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) :rule symm :premises (t5864.t2.a1))
% 32.29/32.51 (step t5864.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule symm :premises (t5864.t2.t3))
% 32.29/32.51 (step t5864.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) :rule refl)
% 32.29/32.51 (step t5864.t2.t6 (cl (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule cong :premises (t5864.t2.t4 t5864.t2.t5))
% 32.29/32.51 (step t5864.t2.t7 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.51 (step t5864.t2.t8 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv2 :premises (t5864.t2.t7))
% 32.29/32.51 (step t5864.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) :rule not_not)
% 32.29/32.51 (step t5864.t2.t10 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) :rule resolution :premises (t5864.t2.t8 t5864.t2.t9))
% 32.29/32.51 (step t5864.t2.t11 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false)) :rule resolution :premises (t5864.t2.t10 t5864.t2.a0))
% 32.29/32.51 (step t5864.t2.t12 (cl (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) false)) :rule trans :premises (t5864.t2.t6 t5864.t2.t11))
% 32.29/32.51 (step t5864.t2.t13 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t5864.t2.t2 t5864.t2.t12))
% 32.29/32.51 (step t5864.t2 (cl (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule subproof :discharge (t5864.t2.a0 t5864.t2.a1))
% 32.29/32.52 (step t5864.t3 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t5864.t4 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t5864.t5 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t5864.t2 t5864.t3 t5864.t4))
% 32.29/32.52 (step t5864.t6 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule reordering :premises (t5864.t5))
% 32.29/32.52 (step t5864.t7 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule contraction :premises (t5864.t6))
% 32.29/32.52 (step t5864.t8 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t5864.t1 t5864.t7))
% 32.29/32.52 (step t5864.t9 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t5864.t10 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule resolution :premises (t5864.t8 t5864.t9))
% 32.29/32.52 (step t5864.t11 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule contraction :premises (t5864.t10))
% 32.29/32.52 (step t5864.t12 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule implies :premises (t5864.t11))
% 32.29/32.52 (step t5864.t13 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t5864.t14 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t5864.t13 t5864.a1 t5864.a0))
% 32.29/32.52 (step t5864.t15 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t5864.t12 t5864.t14))
% 32.29/32.52 (step t5864 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule subproof :discharge (t5864.a0 t5864.a1))
% 32.29/32.52 (step t5865 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t5866 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t5867 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))))) :rule resolution :premises (t5864 t5865 t5866))
% 32.29/32.52 (step t5868 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule reordering :premises (t5867))
% 32.29/32.52 (step t5869 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule contraction :premises (t5868))
% 32.29/32.52 (step t5870 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t5863 t5869))
% 32.29/32.52 (step t5871 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t5872 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule resolution :premises (t5870 t5871))
% 32.29/32.52 (step t5873 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule contraction :premises (t5872))
% 32.29/32.52 (step t5874 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule implies :premises (t5873))
% 32.29/32.52 (step t5875 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t5862 t5874))
% 32.29/32.52 (step t5876 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t5877 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t5878 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t5879 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule resolution :premises (t5875 t5876 t5877 t5878))
% 32.29/32.52 (step t5880 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule contraction :premises (t5879))
% 32.29/32.52 (step t5881 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))))) :rule resolution :premises (t5848 t5861 t5880))
% 32.29/32.52 (step t5882 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)))) :rule or :premises (t5881))
% 32.29/32.52 (step t5883 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule reordering :premises (t5882))
% 32.29/32.52 (step t5884 (cl (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule and_neg)
% 32.29/32.52 (step t5885 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5886)
% 32.29/32.52 (assume t5886.a0 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)))
% 32.29/32.52 (assume t5886.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.52 (assume t5886.a2 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (step t5886.t1 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5886.t2)
% 32.29/32.52 (assume t5886.t2.a0 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)))
% 32.29/32.52 (assume t5886.t2.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.52 (assume t5886.t2.a2 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (step t5886.t2.t1 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t5886.t2.t2 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t5886.t2.a2))
% 32.29/32.52 (step t5886.t2.t3 (cl (= tptp.e22 tptp.unit2)) :rule symm :premises (t5886.t2.t2))
% 32.29/32.52 (step t5886.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.unit2))) :rule cong :premises (t5886.t2.t1 t5886.t2.t3))
% 32.29/32.52 (step t5886.t2.t5 (cl (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24)) :rule symm :premises (t5886.t2.a1))
% 32.29/32.52 (step t5886.t2.t6 (cl (= (tptp.op2 tptp.e20 tptp.e22) tptp.e24)) :rule symm :premises (t5886.t2.a0))
% 32.29/32.52 (step t5886.t2.t7 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) :rule symm :premises (t5886.t2.t6))
% 32.29/32.52 (step t5886.t2.t8 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule trans :premises (t5886.t2.t4 t5886.t2.t5 t5886.t2.t7))
% 32.29/32.52 (step t5886.t2 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule subproof :discharge (t5886.t2.a0 t5886.t2.a1 t5886.t2.a2))
% 32.29/32.52 (step t5886.t3 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t5886.t4 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t5886.t5 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t5886.t6 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)))) :rule resolution :premises (t5886.t2 t5886.t3 t5886.t4 t5886.t5))
% 32.29/32.52 (step t5886.t7 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule reordering :premises (t5886.t6))
% 32.29/32.52 (step t5886.t8 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule contraction :premises (t5886.t7))
% 32.29/32.52 (step t5886.t9 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t5886.t1 t5886.t8))
% 32.29/32.52 (step t5886.t10 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t5886.t11 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t5886.t9 t5886.t10))
% 32.29/32.52 (step t5886.t12 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule contraction :premises (t5886.t11))
% 32.29/32.52 (step t5886.t13 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule implies :premises (t5886.t12))
% 32.29/32.52 (step t5886.t14 (cl (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule and_neg)
% 32.29/32.52 (step t5886.t15 (cl (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) :rule resolution :premises (t5886.t14 t5886.a0 t5886.a1 t5886.a2))
% 32.29/32.52 (step t5886.t16 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t5886.t13 t5886.t15))
% 32.29/32.52 (step t5886 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule subproof :discharge (t5886.a0 t5886.a1 t5886.a2))
% 32.29/32.52 (step t5887 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t5888 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t5889 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t5890 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)))) :rule resolution :premises (t5886 t5887 t5888 t5889))
% 32.29/32.52 (step t5891 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule reordering :premises (t5890))
% 32.29/32.52 (step t5892 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule contraction :premises (t5891))
% 32.29/32.52 (step t5893 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t5885 t5892))
% 32.29/32.52 (step t5894 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t5895 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t5893 t5894))
% 32.29/32.52 (step t5896 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule contraction :premises (t5895))
% 32.29/32.52 (step t5897 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule implies :premises (t5896))
% 32.29/32.52 (step t5898 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t5884 t5897))
% 32.29/32.52 (step t5899 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t5898))
% 32.29/32.52 (step t5900 (cl (not (= (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))))) (not (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_pos2)
% 32.29/32.52 (step t5901 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.52 (step t5902 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) :rule equiv1 :premises (t5901))
% 32.29/32.52 (step t5903 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))))) :rule all_simplify)
% 32.29/32.52 (step t5904 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) :rule refl)
% 32.29/32.52 (step t5905 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) :rule all_simplify)
% 32.29/32.52 (step t5906 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) :rule cong :premises (t5904 t5905))
% 32.29/32.52 (step t5907 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) true)) :rule all_simplify)
% 32.29/32.52 (step t5908 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) true)) :rule trans :premises (t5906 t5907))
% 32.29/32.52 (step t5909 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) true)) :rule trans :premises (t5903 t5908))
% 32.29/32.52 (step t5910 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5902 t5909))
% 32.29/32.52 (step t5911 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule refl)
% 32.29/32.52 (step t5912 (cl (= (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))))) :rule cong :premises (t5566 t4 t5910 t5911))
% 32.29/32.52 (step t5913 (cl (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) :rule and_neg)
% 32.29/32.52 (step t5914 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5915)
% 32.29/32.52 (assume t5915.a0 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.52 (assume t5915.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t5915.a2 (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))
% 32.29/32.52 (step t5915.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5915.t2)
% 32.29/32.52 (assume t5915.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))
% 32.29/32.52 (assume t5915.t2.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))
% 32.29/32.52 (step t5915.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) false) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.52 (step t5915.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) false)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule equiv1 :premises (t5915.t2.t1))
% 32.29/32.52 (step t5915.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) :rule symm :premises (t5915.t2.a1))
% 32.29/32.52 (step t5915.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule symm :premises (t5915.t2.t3))
% 32.29/32.52 (step t5915.t2.t5 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) :rule refl)
% 32.29/32.52 (step t5915.t2.t6 (cl (= (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) :rule cong :premises (t5915.t2.t4 t5915.t2.t5))
% 32.29/32.52 (step t5915.t2.t7 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) false) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.52 (step t5915.t2.t8 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) :rule equiv2 :premises (t5915.t2.t7))
% 32.29/32.52 (step t5915.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) :rule not_not)
% 32.29/32.52 (step t5915.t2.t10 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) false) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) :rule resolution :premises (t5915.t2.t8 t5915.t2.t9))
% 32.29/32.52 (step t5915.t2.t11 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) false)) :rule resolution :premises (t5915.t2.t10 t5915.t2.a0))
% 32.29/32.52 (step t5915.t2.t12 (cl (= (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)) false)) :rule trans :premises (t5915.t2.t6 t5915.t2.t11))
% 32.29/32.52 (step t5915.t2.t13 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5915.t2.t2 t5915.t2.t12))
% 32.29/32.52 (step t5915.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule subproof :discharge (t5915.t2.a0 t5915.t2.a1))
% 32.29/32.52 (step t5915.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) :rule and_pos)
% 32.29/32.52 (step t5915.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t5915.t5 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))))) :rule resolution :premises (t5915.t2 t5915.t3 t5915.t4))
% 32.29/32.52 (step t5915.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule reordering :premises (t5915.t5))
% 32.29/32.52 (step t5915.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule contraction :premises (t5915.t6))
% 32.29/32.52 (step t5915.t8 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5915.t1 t5915.t7))
% 32.29/32.52 (step t5915.t9 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule implies_neg2)
% 32.29/32.52 (step t5915.t10 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t5915.t8 t5915.t9))
% 32.29/32.52 (step t5915.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule contraction :premises (t5915.t10))
% 32.29/32.52 (step t5915.t12 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule implies :premises (t5915.t11))
% 32.29/32.52 (step t5915.t13 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule and_neg)
% 32.29/32.52 (step t5915.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5915.t15)
% 32.29/32.52 (assume t5915.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t5915.t15.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.52 (step t5915.t15.t1 (cl (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24)) :rule symm :premises (t5915.t15.a1))
% 32.29/32.52 (step t5915.t15.t2 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule symm :premises (t5915.t15.t1))
% 32.29/32.52 (step t5915.t15.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t5915.t15.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t5915.t15.a0))
% 32.29/32.52 (step t5915.t15.t5 (cl (= (tptp.op2 tptp.e24 tptp.unit2) (tptp.op2 tptp.e24 tptp.e22))) :rule cong :premises (t5915.t15.t3 t5915.t15.t4))
% 32.29/32.52 (step t5915.t15.t6 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule trans :premises (t5915.t15.t2 t5915.t15.t5))
% 32.29/32.52 (step t5915.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule subproof :discharge (t5915.t15.a0 t5915.t15.a1))
% 32.29/32.52 (step t5915.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t5915.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t5915.t18 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))))) :rule resolution :premises (t5915.t15 t5915.t16 t5915.t17))
% 32.29/32.52 (step t5915.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule reordering :premises (t5915.t18))
% 32.29/32.52 (step t5915.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule contraction :premises (t5915.t19))
% 32.29/32.52 (step t5915.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule resolution :premises (t5915.t14 t5915.t20))
% 32.29/32.52 (step t5915.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t5915.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t5915.t21 t5915.t22))
% 32.29/32.52 (step t5915.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule contraction :premises (t5915.t23))
% 32.29/32.52 (step t5915.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule implies :premises (t5915.t24))
% 32.29/32.52 (step t5915.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t5915.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule resolution :premises (t5915.t26 t5915.a1 t5915.a0))
% 32.29/32.52 (step t5915.t28 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule resolution :premises (t5915.t25 t5915.t27))
% 32.29/32.52 (step t5915.t29 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t5915.t13 t5915.a2 t5915.t28))
% 32.29/32.52 (step t5915.t30 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5915.t12 t5915.t29))
% 32.29/32.52 (step t5915 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule subproof :discharge (t5915.a0 t5915.a1 t5915.a2))
% 32.29/32.52 (step t5916 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t5917 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t5918 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) :rule and_pos)
% 32.29/32.52 (step t5919 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))))) :rule resolution :premises (t5915 t5916 t5917 t5918))
% 32.29/32.52 (step t5920 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule reordering :premises (t5919))
% 32.29/32.52 (step t5921 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule contraction :premises (t5920))
% 32.29/32.52 (step t5922 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5914 t5921))
% 32.29/32.52 (step t5923 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule implies_neg2)
% 32.29/32.52 (step t5924 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t5922 t5923))
% 32.29/32.52 (step t5925 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule contraction :premises (t5924))
% 32.29/32.52 (step t5926 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20))))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule implies :premises (t5925))
% 32.29/32.52 (step t5927 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule resolution :premises (t5913 t5926))
% 32.29/32.52 (step t5928 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t5929 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.52 (step t5930 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))))) :rule or_neg)
% 32.29/32.52 (step t5931 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule or_neg)
% 32.29/32.52 (step t5932 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t5927 t5928 t5929 t5930 t5931))
% 32.29/32.52 (step t5933 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule contraction :premises (t5932))
% 32.29/32.52 (step t5934 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t5900 t5912 t5933))
% 32.29/32.52 (step t5935 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20)))) :rule or :premises (t5934))
% 32.29/32.52 (step t5936 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t5935))
% 32.29/32.52 (step t5937 (cl (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e24 tptp.e20)))) :rule and :premises (t459))
% 32.29/32.52 (step t5938 (cl (not (= (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))))) (not (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule equiv_pos2)
% 32.29/32.52 (step t5939 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t5940 (cl (= (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e23 (tptp.h4 tptp.e14))))) :rule refl)
% 32.29/32.52 (step t5941 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule refl)
% 32.29/32.52 (step t5942 (cl (= (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))))) :rule cong :premises (t5939 t5448 t5849 t5859 t5940 t5941))
% 32.29/32.52 (step t5943 (cl (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14)))) :rule and_neg)
% 32.29/32.52 (step t5944 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5945)
% 32.29/32.52 (assume t5945.a0 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.52 (assume t5945.a1 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.52 (assume t5945.a2 (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.52 (assume t5945.a3 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))
% 32.29/32.52 (assume t5945.a4 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.52 (step t5945.t1 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5945.t2)
% 32.29/32.52 (assume t5945.t2.a0 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))
% 32.29/32.52 (assume t5945.t2.a1 (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.52 (assume t5945.t2.a2 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.52 (assume t5945.t2.a3 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.52 (assume t5945.t2.a4 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.52 (step t5945.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) false) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.52 (step t5945.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) false)) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule equiv1 :premises (t5945.t2.t1))
% 32.29/32.52 (step t5945.t2.t3 (cl (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) :rule symm :premises (t5945.t2.a1))
% 32.29/32.52 (step t5945.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule symm :premises (t5945.t2.t3))
% 32.29/32.52 (step t5945.t2.t5 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t5945.t2.a3))
% 32.29/32.52 (step t5945.t2.t6 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t5945.t2.a2))
% 32.29/32.52 (step t5945.t2.t7 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t5945.t2.t6))
% 32.29/32.52 (step t5945.t2.t8 (cl (= (tptp.h4 tptp.e14) (tptp.op2 tptp.e20 tptp.e24))) :rule trans :premises (t5945.t2.t5 t5945.t2.t7))
% 32.29/32.52 (step t5945.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.h4 tptp.e14))) :rule symm :premises (t5945.t2.t8))
% 32.29/32.52 (step t5945.t2.t10 (cl (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23)) :rule symm :premises (t5945.t2.a4))
% 32.29/32.52 (step t5945.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e20) (tptp.h4 tptp.e14))) :rule trans :premises (t5945.t2.t10 t5945.t2.a3))
% 32.29/32.52 (step t5945.t2.t12 (cl (= (tptp.h4 tptp.e14) (tptp.op2 tptp.e21 tptp.e20))) :rule symm :premises (t5945.t2.t11))
% 32.29/32.52 (step t5945.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 tptp.e21 tptp.e20))) :rule trans :premises (t5945.t2.t9 t5945.t2.t12))
% 32.29/32.52 (step t5945.t2.t14 (cl (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t5945.t2.t13))
% 32.29/32.52 (step t5945.t2.t15 (cl (= (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule cong :premises (t5945.t2.t4 t5945.t2.t14))
% 32.29/32.52 (step t5945.t2.t16 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t5945.t2.t17 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) :rule equiv2 :premises (t5945.t2.t16))
% 32.29/32.52 (step t5945.t2.t18 (cl (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) :rule not_not)
% 32.29/32.52 (step t5945.t2.t19 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) :rule resolution :premises (t5945.t2.t17 t5945.t2.t18))
% 32.29/32.52 (step t5945.t2.t20 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) false)) :rule resolution :premises (t5945.t2.t19 t5945.t2.a0))
% 32.29/32.52 (step t5945.t2.t21 (cl (= (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)) false)) :rule trans :premises (t5945.t2.t15 t5945.t2.t20))
% 32.29/32.52 (step t5945.t2.t22 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5945.t2.t2 t5945.t2.t21))
% 32.29/32.52 (step t5945.t2 (cl (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule subproof :discharge (t5945.t2.a0 t5945.t2.a1 t5945.t2.a2 t5945.t2.a3 t5945.t2.a4))
% 32.29/32.52 (step t5945.t3 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t5945.t4 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t5945.t5 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t5945.t6 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t5945.t7 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.52 (step t5945.t8 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5945.t2 t5945.t3 t5945.t4 t5945.t5 t5945.t6 t5945.t7))
% 32.29/32.52 (step t5945.t9 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule reordering :premises (t5945.t8))
% 32.29/32.52 (step t5945.t10 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule contraction :premises (t5945.t9))
% 32.29/32.52 (step t5945.t11 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5945.t1 t5945.t10))
% 32.29/32.52 (step t5945.t12 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule implies_neg2)
% 32.29/32.52 (step t5945.t13 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5945.t11 t5945.t12))
% 32.29/32.52 (step t5945.t14 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule contraction :premises (t5945.t13))
% 32.29/32.52 (step t5945.t15 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies :premises (t5945.t14))
% 32.29/32.52 (step t5945.t16 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule and_neg)
% 32.29/32.52 (step t5945.t17 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5945.t16 t5945.a3 t5945.a2 t5945.a0 t5945.a4 t5945.a1))
% 32.29/32.52 (step t5945.t18 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5945.t15 t5945.t17))
% 32.29/32.52 (step t5945 (cl (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule subproof :discharge (t5945.a0 t5945.a1 t5945.a2 t5945.a3 t5945.a4))
% 32.29/32.52 (step t5946 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t5947 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.52 (step t5948 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t5949 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t5950 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t5951 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))) (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14))))) :rule resolution :premises (t5945 t5946 t5947 t5948 t5949 t5950))
% 32.29/32.52 (step t5952 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule reordering :premises (t5951))
% 32.29/32.52 (step t5953 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule contraction :premises (t5952))
% 32.29/32.52 (step t5954 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5944 t5953))
% 32.29/32.52 (step t5955 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule implies_neg2)
% 32.29/32.52 (step t5956 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (=> (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5954 t5955))
% 32.29/32.52 (step t5957 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule contraction :premises (t5956))
% 32.29/32.52 (step t5958 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule implies :premises (t5957))
% 32.29/32.52 (step t5959 (cl (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule resolution :premises (t5943 t5958))
% 32.29/32.52 (step t5960 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t5961 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))))) :rule or_neg)
% 32.29/32.52 (step t5962 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t5963 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t5964 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e23 (tptp.h4 tptp.e14))))) :rule or_neg)
% 32.29/32.52 (step t5965 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule or_neg)
% 32.29/32.52 (step t5966 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5959 t5960 t5961 t5962 t5963 t5964 t5965))
% 32.29/32.52 (step t5967 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule contraction :premises (t5966))
% 32.29/32.52 (step t5968 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))))) :rule resolution :premises (t5938 t5942 t5967))
% 32.29/32.52 (step t5969 (cl (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20)))) :rule or :premises (t5968))
% 32.29/32.52 (step t5970 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.h4 tptp.e14)))) :rule reordering :premises (t5969))
% 32.29/32.52 (step t5971 (cl (not (= (and (= (tptp.h4 tptp.e14) tptp.e23) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) (not (and (= (tptp.h4 tptp.e14) tptp.e23) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23))))) (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule equiv_pos2)
% 32.29/32.52 (step t5972 (cl (= (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))) :rule refl)
% 32.29/32.52 (step t5973 (cl (= (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule all_simplify)
% 32.29/32.52 (step t5974 (cl (= (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))) :rule refl)
% 32.29/32.52 (step t5975 (cl (= (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule all_simplify)
% 32.29/32.52 (step t5976 (cl (= (and (= (tptp.h4 tptp.e14) tptp.e23) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule cong :premises (t679 t5972 t5973 t5974 t5975))
% 32.29/32.52 (step t5977 (cl (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule resolution :premises (t5971 t5976 a18))
% 32.29/32.52 (step t5978 (cl (= tptp.e23 (tptp.h4 tptp.e14))) :rule and :premises (t5977))
% 32.29/32.52 (step t5979 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t5517 t5519 t5554 t5592 t5593 t5630 t5358 t5672 t5673 t5711 t5736 t5772 t5773 t5808 t5809 t5846 t5847 t5883 t5899 t5936 t5937 t5970 t5978))
% 32.29/32.52 (step t5980 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule contraction :premises (t5979))
% 32.29/32.52 (step t5981 (cl (or (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule and :premises (t2369))
% 32.29/32.52 (step t5982 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) :rule or :premises (t5981))
% 32.29/32.52 (step t5983 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.52 (step t5984 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.52 (step t5985 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule equiv1 :premises (t5984))
% 32.29/32.52 (step t5986 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))))) :rule all_simplify)
% 32.29/32.52 (step t5987 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule refl)
% 32.29/32.52 (step t5988 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule all_simplify)
% 32.29/32.52 (step t5989 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) :rule cong :premises (t5987 t5988))
% 32.29/32.52 (step t5990 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) true)) :rule all_simplify)
% 32.29/32.52 (step t5991 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) true)) :rule trans :premises (t5989 t5990))
% 32.29/32.52 (step t5992 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) true)) :rule trans :premises (t5986 t5991))
% 32.29/32.52 (step t5993 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t5985 t5992))
% 32.29/32.52 (step t5994 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t5995 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))))) :rule cong :premises (t222 t2928 t5738 t5993 t5994))
% 32.29/32.52 (step t5996 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) :rule and_neg)
% 32.29/32.52 (step t5997 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5998)
% 32.29/32.52 (assume t5998.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t5998.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (assume t5998.a2 (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))
% 32.29/32.52 (assume t5998.a3 (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))
% 32.29/32.52 (step t5998.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5998.t2)
% 32.29/32.52 (assume t5998.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))
% 32.29/32.52 (assume t5998.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))
% 32.29/32.52 (assume t5998.t2.a2 (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))
% 32.29/32.52 (assume t5998.t2.a3 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (step t5998.t2.t1 (cl (= (= (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)) false) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t5998.t2.t2 (cl (not (= (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)) false)) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule equiv1 :premises (t5998.t2.t1))
% 32.29/32.52 (step t5998.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) :rule symm :premises (t5998.t2.a1))
% 32.29/32.52 (step t5998.t2.t4 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule symm :premises (t5998.t2.t3))
% 32.29/32.52 (step t5998.t2.t5 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5998.t2.a3))
% 32.29/32.52 (step t5998.t2.t6 (cl (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21)) :rule symm :premises (t5998.t2.a2))
% 32.29/32.52 (step t5998.t2.t7 (cl (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule symm :premises (t5998.t2.t6))
% 32.29/32.52 (step t5998.t2.t8 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e21))) :rule trans :premises (t5998.t2.t5 t5998.t2.t7))
% 32.29/32.52 (step t5998.t2.t9 (cl (= (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule cong :premises (t5998.t2.t4 t5998.t2.t8))
% 32.29/32.52 (step t5998.t2.t10 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) false) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.52 (step t5998.t2.t11 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) :rule equiv2 :premises (t5998.t2.t10))
% 32.29/32.52 (step t5998.t2.t12 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) :rule not_not)
% 32.29/32.52 (step t5998.t2.t13 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) false) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) :rule resolution :premises (t5998.t2.t11 t5998.t2.t12))
% 32.29/32.52 (step t5998.t2.t14 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) false)) :rule resolution :premises (t5998.t2.t13 t5998.t2.a0))
% 32.29/32.52 (step t5998.t2.t15 (cl (= (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)) false)) :rule trans :premises (t5998.t2.t9 t5998.t2.t14))
% 32.29/32.52 (step t5998.t2.t16 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5998.t2.t2 t5998.t2.t15))
% 32.29/32.52 (step t5998.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule subproof :discharge (t5998.t2.a0 t5998.t2.a1 t5998.t2.a2 t5998.t2.a3))
% 32.29/32.52 (step t5998.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule and_pos)
% 32.29/32.52 (step t5998.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule and_pos)
% 32.29/32.52 (step t5998.t5 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule and_pos)
% 32.29/32.52 (step t5998.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t5998.t7 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5998.t2 t5998.t3 t5998.t4 t5998.t5 t5998.t6))
% 32.29/32.52 (step t5998.t8 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule reordering :premises (t5998.t7))
% 32.29/32.52 (step t5998.t9 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule contraction :premises (t5998.t8))
% 32.29/32.52 (step t5998.t10 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5998.t1 t5998.t9))
% 32.29/32.52 (step t5998.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t5998.t12 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5998.t10 t5998.t11))
% 32.29/32.52 (step t5998.t13 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule contraction :premises (t5998.t12))
% 32.29/32.52 (step t5998.t14 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies :premises (t5998.t13))
% 32.29/32.52 (step t5998.t15 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t5998.t16 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t5998.t17)
% 32.29/32.52 (assume t5998.t17.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t5998.t17.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (step t5998.t17.t1 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t5998.t17.a1))
% 32.29/32.52 (step t5998.t17.t2 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t5998.t17.t1))
% 32.29/32.52 (step t5998.t17.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t5998.t17.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t5998.t17.a0))
% 32.29/32.52 (step t5998.t17.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t5998.t17.t3 t5998.t17.t4))
% 32.29/32.52 (step t5998.t17.t6 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule trans :premises (t5998.t17.t2 t5998.t17.t5))
% 32.29/32.52 (step t5998.t17 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule subproof :discharge (t5998.t17.a0 t5998.t17.a1))
% 32.29/32.52 (step t5998.t18 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t5998.t19 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t5998.t20 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule resolution :premises (t5998.t17 t5998.t18 t5998.t19))
% 32.29/32.52 (step t5998.t21 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule reordering :premises (t5998.t20))
% 32.29/32.52 (step t5998.t22 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule contraction :premises (t5998.t21))
% 32.29/32.52 (step t5998.t23 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule resolution :premises (t5998.t16 t5998.t22))
% 32.29/32.52 (step t5998.t24 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule implies_neg2)
% 32.29/32.52 (step t5998.t25 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t5998.t23 t5998.t24))
% 32.29/32.52 (step t5998.t26 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule contraction :premises (t5998.t25))
% 32.29/32.52 (step t5998.t27 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule implies :premises (t5998.t26))
% 32.29/32.52 (step t5998.t28 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule and_neg)
% 32.29/32.52 (step t5998.t29 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5998.t28 t5998.a0 t5998.a1))
% 32.29/32.52 (step t5998.t30 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule resolution :premises (t5998.t27 t5998.t29))
% 32.29/32.52 (step t5998.t31 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5998.t15 t5998.a3 t5998.t30 t5998.a2 t5998.a0))
% 32.29/32.52 (step t5998.t32 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5998.t14 t5998.t31))
% 32.29/32.52 (step t5998 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule subproof :discharge (t5998.a0 t5998.a1 t5998.a2 t5998.a3))
% 32.29/32.52 (step t5999 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6000 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6001 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule and_pos)
% 32.29/32.52 (step t6002 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule and_pos)
% 32.29/32.52 (step t6003 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))))) :rule resolution :premises (t5998 t5999 t6000 t6001 t6002))
% 32.29/32.52 (step t6004 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule reordering :premises (t6003))
% 32.29/32.52 (step t6005 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule contraction :premises (t6004))
% 32.29/32.52 (step t6006 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5997 t6005))
% 32.29/32.52 (step t6007 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6008 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t6006 t6007))
% 32.29/32.52 (step t6009 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule contraction :premises (t6008))
% 32.29/32.52 (step t6010 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies :premises (t6009))
% 32.29/32.52 (step t6011 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t5996 t6010))
% 32.29/32.52 (step t6012 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6013 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t6014 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))))) :rule or_neg)
% 32.29/32.52 (step t6015 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))))) :rule or_neg)
% 32.29/32.52 (step t6016 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6017 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t6011 t6012 t6013 t6014 t6015 t6016))
% 32.29/32.52 (step t6018 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule contraction :premises (t6017))
% 32.29/32.52 (step t6019 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t5983 t5995 t6018))
% 32.29/32.52 (step t6020 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24)))) :rule or :premises (t6019))
% 32.29/32.52 (step t6021 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule reordering :premises (t6020))
% 32.29/32.52 (step t6022 (cl (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e22 tptp.e21)))) :rule and :premises (t459))
% 32.29/32.52 (step t6023 (cl (not (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))))) (not (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.52 (step t6024 (cl (= (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) true) (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6025 (cl (not (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) true)) (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule equiv1 :premises (t6024))
% 32.29/32.52 (step t6026 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))))) :rule all_simplify)
% 32.29/32.52 (step t6027 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule refl)
% 32.29/32.52 (step t6028 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.29/32.52 (step t6029 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))) (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))) :rule cong :premises (t6027 t6028))
% 32.29/32.52 (step t6030 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) true)) :rule all_simplify)
% 32.29/32.52 (step t6031 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))) true)) :rule trans :premises (t6029 t6030))
% 32.29/32.52 (step t6032 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) true)) :rule trans :premises (t6026 t6031))
% 32.29/32.52 (step t6033 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule resolution :premises (t6025 t6032))
% 32.29/32.52 (step t6034 (cl (= (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e22 (tptp.h3 tptp.e14))))) :rule refl)
% 32.29/32.52 (step t6035 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t6036 (cl (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))))) :rule cong :premises (t2927 t2928 t5475 t5685 t4 t6033 t6034 t5486 t6035))
% 32.29/32.52 (step t6037 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule and_neg)
% 32.29/32.52 (step t6038 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6039)
% 32.29/32.52 (assume t6039.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.52 (assume t6039.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (assume t6039.a2 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.52 (assume t6039.a3 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.52 (assume t6039.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6039.a5 (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))
% 32.29/32.52 (assume t6039.a6 (= tptp.e22 (tptp.h3 tptp.e14)))
% 32.29/32.52 (assume t6039.a7 (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))
% 32.29/32.52 (step t6039.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6039.t2)
% 32.29/32.52 (assume t6039.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))
% 32.29/32.52 (assume t6039.t2.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))
% 32.29/32.52 (assume t6039.t2.a2 (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))
% 32.29/32.52 (assume t6039.t2.a3 (= tptp.e22 (tptp.h3 tptp.e11)))
% 32.29/32.52 (assume t6039.t2.a4 (= tptp.e22 (tptp.h3 tptp.e14)))
% 32.29/32.52 (assume t6039.t2.a5 (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))
% 32.29/32.52 (step t6039.t2.t1 (cl (= (= (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) false) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6039.t2.t2 (cl (not (= (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) false)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule equiv1 :premises (t6039.t2.t1))
% 32.29/32.52 (step t6039.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23)) :rule symm :premises (t6039.t2.a1))
% 32.29/32.52 (step t6039.t2.t4 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule symm :premises (t6039.t2.t3))
% 32.29/32.52 (step t6039.t2.t5 (cl (= (tptp.h3 tptp.e14) tptp.e22)) :rule symm :premises (t6039.t2.a4))
% 32.29/32.52 (step t6039.t2.t6 (cl (= (tptp.h3 tptp.e11) tptp.e22)) :rule symm :premises (t6039.t2.a3))
% 32.29/32.52 (step t6039.t2.t7 (cl (= tptp.e22 (tptp.h3 tptp.e11))) :rule symm :premises (t6039.t2.t6))
% 32.29/32.52 (step t6039.t2.t8 (cl (= (tptp.h3 tptp.e11) (tptp.op2 tptp.e22 tptp.e22))) :rule symm :premises (t6039.t2.a2))
% 32.29/32.52 (step t6039.t2.t9 (cl (= (tptp.h3 tptp.e14) (tptp.op2 tptp.e22 tptp.e22))) :rule trans :premises (t6039.t2.t5 t6039.t2.t7 t6039.t2.t8))
% 32.29/32.52 (step t6039.t2.t10 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e14))) :rule symm :premises (t6039.t2.t9))
% 32.29/32.52 (step t6039.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) :rule symm :premises (t6039.t2.a5))
% 32.29/32.52 (step t6039.t2.t12 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.h3 tptp.e14))) :rule trans :premises (t6039.t2.t11 t6039.t2.a4))
% 32.29/32.52 (step t6039.t2.t13 (cl (= (tptp.h3 tptp.e14) (tptp.op2 tptp.e23 tptp.e24))) :rule symm :premises (t6039.t2.t12))
% 32.29/32.52 (step t6039.t2.t14 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e23 tptp.e24))) :rule trans :premises (t6039.t2.t10 t6039.t2.t13))
% 32.29/32.52 (step t6039.t2.t15 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) :rule symm :premises (t6039.t2.t14))
% 32.29/32.52 (step t6039.t2.t16 (cl (= (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule cong :premises (t6039.t2.t4 t6039.t2.t15))
% 32.29/32.52 (step t6039.t2.t17 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) false) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6039.t2.t18 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))) :rule equiv2 :premises (t6039.t2.t17))
% 32.29/32.52 (step t6039.t2.t19 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) :rule not_not)
% 32.29/32.52 (step t6039.t2.t20 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) false) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) :rule resolution :premises (t6039.t2.t18 t6039.t2.t19))
% 32.29/32.52 (step t6039.t2.t21 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) false)) :rule resolution :premises (t6039.t2.t20 t6039.t2.a0))
% 32.29/32.52 (step t6039.t2.t22 (cl (= (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)) false)) :rule trans :premises (t6039.t2.t16 t6039.t2.t21))
% 32.29/32.52 (step t6039.t2.t23 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6039.t2.t2 t6039.t2.t22))
% 32.29/32.52 (step t6039.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule subproof :discharge (t6039.t2.a0 t6039.t2.a1 t6039.t2.a2 t6039.t2.a3 t6039.t2.a4 t6039.t2.a5))
% 32.29/32.52 (step t6039.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6039.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t6039.t5 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.52 (step t6039.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.52 (step t6039.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e22 (tptp.h3 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t6039.t8 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6039.t9 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6039.t2 t6039.t3 t6039.t4 t6039.t5 t6039.t6 t6039.t7 t6039.t8))
% 32.29/32.52 (step t6039.t10 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule reordering :premises (t6039.t9))
% 32.29/32.52 (step t6039.t11 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t6039.t10))
% 32.29/32.52 (step t6039.t12 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6039.t1 t6039.t11))
% 32.29/32.52 (step t6039.t13 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6039.t14 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6039.t12 t6039.t13))
% 32.29/32.52 (step t6039.t15 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule contraction :premises (t6039.t14))
% 32.29/32.52 (step t6039.t16 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies :premises (t6039.t15))
% 32.29/32.52 (step t6039.t17 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6039.t18 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6039.t19)
% 32.29/32.52 (assume t6039.t19.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6039.t19.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.52 (step t6039.t19.t1 (cl (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23)) :rule symm :premises (t6039.t19.a1))
% 32.29/32.52 (step t6039.t19.t2 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule symm :premises (t6039.t19.t1))
% 32.29/32.52 (step t6039.t19.t3 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.52 (step t6039.t19.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6039.t19.a0))
% 32.29/32.52 (step t6039.t19.t5 (cl (= (tptp.op2 tptp.e23 tptp.unit2) (tptp.op2 tptp.e23 tptp.e22))) :rule cong :premises (t6039.t19.t3 t6039.t19.t4))
% 32.29/32.52 (step t6039.t19.t6 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule trans :premises (t6039.t19.t2 t6039.t19.t5))
% 32.29/32.52 (step t6039.t19 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule subproof :discharge (t6039.t19.a0 t6039.t19.a1))
% 32.29/32.52 (step t6039.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6039.t21 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6039.t22 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule resolution :premises (t6039.t19 t6039.t20 t6039.t21))
% 32.29/32.52 (step t6039.t23 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule reordering :premises (t6039.t22))
% 32.29/32.52 (step t6039.t24 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule contraction :premises (t6039.t23))
% 32.29/32.52 (step t6039.t25 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t6039.t18 t6039.t24))
% 32.29/32.52 (step t6039.t26 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t6039.t27 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6039.t25 t6039.t26))
% 32.29/32.52 (step t6039.t28 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule contraction :premises (t6039.t27))
% 32.29/32.52 (step t6039.t29 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule implies :premises (t6039.t28))
% 32.29/32.52 (step t6039.t30 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t6039.t31 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule resolution :premises (t6039.t30 t6039.a4 t6039.a3))
% 32.29/32.52 (step t6039.t32 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t6039.t29 t6039.t31))
% 32.29/32.52 (step t6039.t33 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6039.t34)
% 32.29/32.52 (assume t6039.t34.a0 (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))
% 32.29/32.52 (assume t6039.t34.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6039.t34.a2 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.52 (step t6039.t34.t1 (cl (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22)) :rule symm :premises (t6039.t34.a2))
% 32.29/32.52 (step t6039.t34.t2 (cl (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule symm :premises (t6039.t34.t1))
% 32.29/32.52 (step t6039.t34.t3 (cl (= tptp.e22 tptp.e22)) :rule refl)
% 32.29/32.52 (step t6039.t34.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6039.t34.a1))
% 32.29/32.52 (step t6039.t34.t5 (cl (= (tptp.op2 tptp.e22 tptp.unit2) (tptp.op2 tptp.e22 tptp.e22))) :rule cong :premises (t6039.t34.t3 t6039.t34.t4))
% 32.29/32.52 (step t6039.t34.t6 (cl (= (tptp.h3 tptp.e11) (tptp.op2 tptp.e22 tptp.e22))) :rule symm :premises (t6039.t34.a0))
% 32.29/32.52 (step t6039.t34.t7 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule symm :premises (t6039.t34.t6))
% 32.29/32.52 (step t6039.t34.t8 (cl (= tptp.e22 (tptp.h3 tptp.e11))) :rule trans :premises (t6039.t34.t2 t6039.t34.t5 t6039.t34.t7))
% 32.29/32.52 (step t6039.t34 (cl (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule subproof :discharge (t6039.t34.a0 t6039.t34.a1 t6039.t34.a2))
% 32.29/32.52 (step t6039.t35 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.52 (step t6039.t36 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6039.t37 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6039.t38 (cl (= tptp.e22 (tptp.h3 tptp.e11)) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))))) :rule resolution :premises (t6039.t34 t6039.t35 t6039.t36 t6039.t37))
% 32.29/32.52 (step t6039.t39 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule reordering :premises (t6039.t38))
% 32.29/32.52 (step t6039.t40 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule contraction :premises (t6039.t39))
% 32.29/32.52 (step t6039.t41 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule resolution :premises (t6039.t33 t6039.t40))
% 32.29/32.52 (step t6039.t42 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e11)))) :rule implies_neg2)
% 32.29/32.52 (step t6039.t43 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11)))) :rule resolution :premises (t6039.t41 t6039.t42))
% 32.29/32.52 (step t6039.t44 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11)))) :rule contraction :premises (t6039.t43))
% 32.29/32.52 (step t6039.t45 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule implies :premises (t6039.t44))
% 32.29/32.52 (step t6039.t46 (cl (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t6039.t47 (cl (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule resolution :premises (t6039.t46 t6039.a7 t6039.a4 t6039.a2))
% 32.29/32.52 (step t6039.t48 (cl (= tptp.e22 (tptp.h3 tptp.e11))) :rule resolution :premises (t6039.t45 t6039.t47))
% 32.29/32.52 (step t6039.t49 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6039.t50)
% 32.29/32.52 (assume t6039.t50.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (assume t6039.t50.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.52 (step t6039.t50.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t6039.t50.a1))
% 32.29/32.52 (step t6039.t50.t2 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t6039.t50.t1))
% 32.29/32.52 (step t6039.t50.t3 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t6039.t50.a0))
% 32.29/32.52 (step t6039.t50.t4 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t6039.t50.t3))
% 32.29/32.52 (step t6039.t50.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t6039.t50.t4))
% 32.29/32.52 (step t6039.t50.t6 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6039.t50.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t6039.t50.t5 t6039.t50.t6))
% 32.29/32.52 (step t6039.t50.t8 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule trans :premises (t6039.t50.t2 t6039.t50.t7))
% 32.29/32.52 (step t6039.t50 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule subproof :discharge (t6039.t50.a0 t6039.t50.a1))
% 32.29/32.52 (step t6039.t51 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6039.t52 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6039.t53 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule resolution :premises (t6039.t50 t6039.t51 t6039.t52))
% 32.29/32.52 (step t6039.t54 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule reordering :premises (t6039.t53))
% 32.29/32.52 (step t6039.t55 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule contraction :premises (t6039.t54))
% 32.29/32.52 (step t6039.t56 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t6039.t49 t6039.t55))
% 32.29/32.52 (step t6039.t57 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg2)
% 32.29/32.52 (step t6039.t58 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6039.t56 t6039.t57))
% 32.29/32.52 (step t6039.t59 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t6039.t58))
% 32.29/32.52 (step t6039.t60 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule implies :premises (t6039.t59))
% 32.29/32.52 (step t6039.t61 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6039.t62 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule resolution :premises (t6039.t61 t6039.a1 t6039.a0))
% 32.29/32.52 (step t6039.t63 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t6039.t60 t6039.t62))
% 32.29/32.52 (step t6039.t64 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6039.t17 t6039.a5 t6039.t32 t6039.a7 t6039.t48 t6039.a6 t6039.t63))
% 32.29/32.52 (step t6039.t65 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6039.t16 t6039.t64))
% 32.29/32.52 (step t6039 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule subproof :discharge (t6039.a0 t6039.a1 t6039.a2 t6039.a3 t6039.a4 t6039.a5 t6039.a6 t6039.a7))
% 32.29/32.52 (step t6040 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6041 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6042 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6043 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6044 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6045 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6046 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 (tptp.h3 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t6047 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.52 (step t6048 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))))) :rule resolution :premises (t6039 t6040 t6041 t6042 t6043 t6044 t6045 t6046 t6047))
% 32.29/32.52 (step t6049 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule reordering :premises (t6048))
% 32.29/32.52 (step t6050 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t6049))
% 32.29/32.52 (step t6051 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6038 t6050))
% 32.29/32.52 (step t6052 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6053 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6051 t6052))
% 32.29/32.52 (step t6054 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule contraction :premises (t6053))
% 32.29/32.52 (step t6055 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies :premises (t6054))
% 32.29/32.52 (step t6056 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6037 t6055))
% 32.29/32.52 (step t6057 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6058 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t6059 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t6060 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t6061 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.52 (step t6062 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))))) :rule or_neg)
% 32.29/32.52 (step t6063 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e22 (tptp.h3 tptp.e14))))) :rule or_neg)
% 32.29/32.52 (step t6064 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))))) :rule or_neg)
% 32.29/32.52 (step t6065 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6066 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6056 t6057 t6058 t6059 t6060 t6061 t6062 t6063 t6064 t6065))
% 32.29/32.52 (step t6067 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule contraction :premises (t6066))
% 32.29/32.52 (step t6068 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6023 t6036 t6067))
% 32.29/32.52 (step t6069 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24)))) :rule or :premises (t6068))
% 32.29/32.52 (step t6070 (cl (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule reordering :premises (t6069))
% 32.29/32.52 (step t6071 (cl (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e22 tptp.e22)))) :rule and :premises (t459))
% 32.29/32.52 (step t6072 (cl (or (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule and :premises (t2369))
% 32.29/32.52 (step t6073 (cl (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) :rule or :premises (t6072))
% 32.29/32.52 (step t6074 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t5980 t5982 t6021 t6022 t6070 t6071 t6073))
% 32.29/32.52 (step t6075 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))) :rule contraction :premises (t6074))
% 32.29/32.52 (step t6076 (cl (not (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))))) (not (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.52 (step t6077 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))))) :rule refl)
% 32.29/32.52 (step t6078 (cl (= (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true) (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6079 (cl (not (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true)) (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule equiv1 :premises (t6078))
% 32.29/32.52 (step t6080 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))))) :rule all_simplify)
% 32.29/32.52 (step t6081 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule refl)
% 32.29/32.52 (step t6082 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.29/32.52 (step t6083 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t6081 t6082))
% 32.29/32.52 (step t6084 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true)) :rule all_simplify)
% 32.29/32.52 (step t6085 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) true)) :rule trans :premises (t6083 t6084))
% 32.29/32.52 (step t6086 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true)) :rule trans :premises (t6080 t6085))
% 32.29/32.52 (step t6087 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6079 t6086))
% 32.29/32.52 (step t6088 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t6089 (cl (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))))) :rule cong :premises (t5595 t222 t6077 t5685 t4 t6087 t5596 t6088))
% 32.29/32.52 (step t6090 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule and_neg)
% 32.29/32.52 (step t6091 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6092)
% 32.29/32.52 (assume t6092.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.52 (assume t6092.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t6092.a2 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.52 (assume t6092.a3 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.52 (assume t6092.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6092.a5 (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))
% 32.29/32.52 (assume t6092.a6 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.52 (step t6092.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6092.t2)
% 32.29/32.52 (assume t6092.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))
% 32.29/32.52 (assume t6092.t2.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))
% 32.29/32.52 (assume t6092.t2.a2 (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))
% 32.29/32.52 (assume t6092.t2.a3 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.52 (assume t6092.t2.a4 (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))
% 32.29/32.52 (step t6092.t2.t1 (cl (= (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) false) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6092.t2.t2 (cl (not (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) false)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule equiv1 :premises (t6092.t2.t1))
% 32.29/32.52 (step t6092.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23)) :rule symm :premises (t6092.t2.a1))
% 32.29/32.52 (step t6092.t2.t4 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule symm :premises (t6092.t2.t3))
% 32.29/32.52 (step t6092.t2.t5 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t6092.t2.a3))
% 32.29/32.52 (step t6092.t2.t6 (cl (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20)) :rule symm :premises (t6092.t2.a2))
% 32.29/32.52 (step t6092.t2.t7 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule symm :premises (t6092.t2.t6))
% 32.29/32.52 (step t6092.t2.t8 (cl (= (tptp.h1 tptp.e14) (tptp.op2 tptp.e20 tptp.e22))) :rule trans :premises (t6092.t2.t5 t6092.t2.t7))
% 32.29/32.52 (step t6092.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e22) (tptp.h1 tptp.e14))) :rule symm :premises (t6092.t2.t8))
% 32.29/32.52 (step t6092.t2.t10 (cl (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) :rule symm :premises (t6092.t2.a4))
% 32.29/32.52 (step t6092.t2.t11 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.h1 tptp.e14))) :rule trans :premises (t6092.t2.t10 t6092.t2.a3))
% 32.29/32.52 (step t6092.t2.t12 (cl (= (tptp.h1 tptp.e14) (tptp.op2 tptp.e21 tptp.e24))) :rule symm :premises (t6092.t2.t11))
% 32.29/32.52 (step t6092.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e21 tptp.e24))) :rule trans :premises (t6092.t2.t9 t6092.t2.t12))
% 32.29/32.52 (step t6092.t2.t14 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e20 tptp.e22))) :rule symm :premises (t6092.t2.t13))
% 32.29/32.52 (step t6092.t2.t15 (cl (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule cong :premises (t6092.t2.t4 t6092.t2.t14))
% 32.29/32.52 (step t6092.t2.t16 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6092.t2.t17 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv2 :premises (t6092.t2.t16))
% 32.29/32.52 (step t6092.t2.t18 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule not_not)
% 32.29/32.52 (step t6092.t2.t19 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t6092.t2.t17 t6092.t2.t18))
% 32.29/32.52 (step t6092.t2.t20 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false)) :rule resolution :premises (t6092.t2.t19 t6092.t2.a0))
% 32.29/32.52 (step t6092.t2.t21 (cl (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)) false)) :rule trans :premises (t6092.t2.t15 t6092.t2.t20))
% 32.29/32.52 (step t6092.t2.t22 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6092.t2.t2 t6092.t2.t21))
% 32.29/32.52 (step t6092.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule subproof :discharge (t6092.t2.a0 t6092.t2.a1 t6092.t2.a2 t6092.t2.a3 t6092.t2.a4))
% 32.29/32.52 (step t6092.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6092.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t6092.t5 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t6092.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t6092.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6092.t8 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t6092.t2 t6092.t3 t6092.t4 t6092.t5 t6092.t6 t6092.t7))
% 32.29/32.52 (step t6092.t9 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule reordering :premises (t6092.t8))
% 32.29/32.52 (step t6092.t10 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule contraction :premises (t6092.t9))
% 32.29/32.52 (step t6092.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6092.t1 t6092.t10))
% 32.29/32.52 (step t6092.t12 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6092.t13 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t6092.t11 t6092.t12))
% 32.29/32.52 (step t6092.t14 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule contraction :premises (t6092.t13))
% 32.29/32.52 (step t6092.t15 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies :premises (t6092.t14))
% 32.29/32.52 (step t6092.t16 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6092.t17 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6092.t18)
% 32.29/32.52 (assume t6092.t18.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6092.t18.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.52 (step t6092.t18.t1 (cl (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23)) :rule symm :premises (t6092.t18.a1))
% 32.29/32.52 (step t6092.t18.t2 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule symm :premises (t6092.t18.t1))
% 32.29/32.52 (step t6092.t18.t3 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.52 (step t6092.t18.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6092.t18.a0))
% 32.29/32.52 (step t6092.t18.t5 (cl (= (tptp.op2 tptp.e23 tptp.unit2) (tptp.op2 tptp.e23 tptp.e22))) :rule cong :premises (t6092.t18.t3 t6092.t18.t4))
% 32.29/32.52 (step t6092.t18.t6 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule trans :premises (t6092.t18.t2 t6092.t18.t5))
% 32.29/32.52 (step t6092.t18 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule subproof :discharge (t6092.t18.a0 t6092.t18.a1))
% 32.29/32.52 (step t6092.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6092.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6092.t21 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule resolution :premises (t6092.t18 t6092.t19 t6092.t20))
% 32.29/32.52 (step t6092.t22 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule reordering :premises (t6092.t21))
% 32.29/32.52 (step t6092.t23 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule contraction :premises (t6092.t22))
% 32.29/32.52 (step t6092.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t6092.t17 t6092.t23))
% 32.29/32.52 (step t6092.t25 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t6092.t26 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6092.t24 t6092.t25))
% 32.29/32.52 (step t6092.t27 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule contraction :premises (t6092.t26))
% 32.29/32.52 (step t6092.t28 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule implies :premises (t6092.t27))
% 32.29/32.52 (step t6092.t29 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t6092.t30 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule resolution :premises (t6092.t29 t6092.a4 t6092.a3))
% 32.29/32.52 (step t6092.t31 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t6092.t28 t6092.t30))
% 32.29/32.52 (step t6092.t32 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6092.t33)
% 32.29/32.52 (assume t6092.t33.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6092.t33.a1 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.52 (step t6092.t33.t1 (cl (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20)) :rule symm :premises (t6092.t33.a1))
% 32.29/32.52 (step t6092.t33.t2 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule symm :premises (t6092.t33.t1))
% 32.29/32.52 (step t6092.t33.t3 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.52 (step t6092.t33.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6092.t33.a0))
% 32.29/32.52 (step t6092.t33.t5 (cl (= (tptp.op2 tptp.e20 tptp.unit2) (tptp.op2 tptp.e20 tptp.e22))) :rule cong :premises (t6092.t33.t3 t6092.t33.t4))
% 32.29/32.52 (step t6092.t33.t6 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule trans :premises (t6092.t33.t2 t6092.t33.t5))
% 32.29/32.52 (step t6092.t33 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule subproof :discharge (t6092.t33.a0 t6092.t33.a1))
% 32.29/32.52 (step t6092.t34 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6092.t35 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6092.t36 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))))) :rule resolution :premises (t6092.t33 t6092.t34 t6092.t35))
% 32.29/32.52 (step t6092.t37 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule reordering :premises (t6092.t36))
% 32.29/32.52 (step t6092.t38 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule contraction :premises (t6092.t37))
% 32.29/32.52 (step t6092.t39 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t6092.t32 t6092.t38))
% 32.29/32.52 (step t6092.t40 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t6092.t41 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6092.t39 t6092.t40))
% 32.29/32.52 (step t6092.t42 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule contraction :premises (t6092.t41))
% 32.29/32.52 (step t6092.t43 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule implies :premises (t6092.t42))
% 32.29/32.52 (step t6092.t44 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t6092.t45 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule resolution :premises (t6092.t44 t6092.a4 t6092.a2))
% 32.29/32.52 (step t6092.t46 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t6092.t43 t6092.t45))
% 32.29/32.52 (step t6092.t47 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6092.t48)
% 32.29/32.52 (assume t6092.t48.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t6092.t48.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.52 (step t6092.t48.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t6092.t48.a1))
% 32.29/32.52 (step t6092.t48.t2 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t6092.t48.t1))
% 32.29/32.52 (step t6092.t48.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t6092.t48.a0))
% 32.29/32.52 (step t6092.t48.t4 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6092.t48.t5 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t6092.t48.t3 t6092.t48.t4))
% 32.29/32.52 (step t6092.t48.t6 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule trans :premises (t6092.t48.t2 t6092.t48.t5))
% 32.29/32.52 (step t6092.t48 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule subproof :discharge (t6092.t48.a0 t6092.t48.a1))
% 32.29/32.52 (step t6092.t49 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6092.t50 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6092.t51 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule resolution :premises (t6092.t48 t6092.t49 t6092.t50))
% 32.29/32.52 (step t6092.t52 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule reordering :premises (t6092.t51))
% 32.29/32.52 (step t6092.t53 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule contraction :premises (t6092.t52))
% 32.29/32.52 (step t6092.t54 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t6092.t47 t6092.t53))
% 32.29/32.52 (step t6092.t55 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies_neg2)
% 32.29/32.52 (step t6092.t56 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6092.t54 t6092.t55))
% 32.29/32.52 (step t6092.t57 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule contraction :premises (t6092.t56))
% 32.29/32.52 (step t6092.t58 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule implies :premises (t6092.t57))
% 32.29/32.52 (step t6092.t59 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6092.t60 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule resolution :premises (t6092.t59 t6092.a1 t6092.a0))
% 32.29/32.52 (step t6092.t61 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t6092.t58 t6092.t60))
% 32.29/32.52 (step t6092.t62 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6092.t16 t6092.a5 t6092.t31 t6092.t46 t6092.a6 t6092.t61))
% 32.29/32.52 (step t6092.t63 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6092.t15 t6092.t62))
% 32.29/32.52 (step t6092 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule subproof :discharge (t6092.a0 t6092.a1 t6092.a2 t6092.a3 t6092.a4 t6092.a5 t6092.a6))
% 32.29/32.52 (step t6093 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6094 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6095 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6096 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6097 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6098 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6099 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t6100 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))))) :rule resolution :premises (t6092 t6093 t6094 t6095 t6096 t6097 t6098 t6099))
% 32.29/32.52 (step t6101 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule reordering :premises (t6100))
% 32.29/32.52 (step t6102 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule contraction :premises (t6101))
% 32.29/32.52 (step t6103 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6091 t6102))
% 32.29/32.52 (step t6104 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6105 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t6103 t6104))
% 32.29/32.52 (step t6106 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule contraction :premises (t6105))
% 32.29/32.52 (step t6107 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies :premises (t6106))
% 32.29/32.52 (step t6108 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6090 t6107))
% 32.29/32.52 (step t6109 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6110 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6111 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t6112 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t6113 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.52 (step t6114 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))))) :rule or_neg)
% 32.29/32.52 (step t6115 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e20 (tptp.h1 tptp.e14))))) :rule or_neg)
% 32.29/32.52 (step t6116 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6117 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t6108 t6109 t6110 t6111 t6112 t6113 t6114 t6115 t6116))
% 32.29/32.52 (step t6118 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule contraction :premises (t6117))
% 32.29/32.52 (step t6119 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t6076 t6089 t6118))
% 32.29/32.52 (step t6120 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24)))) :rule or :premises (t6119))
% 32.29/32.52 (step t6121 (cl (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule reordering :premises (t6120))
% 32.29/32.52 (step t6122 (cl (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule and :premises (t459))
% 32.29/32.52 (step t6123 (cl (not (= (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))))) (not (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv_pos2)
% 32.29/32.52 (step t6124 (cl (= (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) true) (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6125 (cl (not (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) true)) (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule equiv1 :premises (t6124))
% 32.29/32.52 (step t6126 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))))) :rule all_simplify)
% 32.29/32.52 (step t6127 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule refl)
% 32.29/32.52 (step t6128 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule all_simplify)
% 32.29/32.52 (step t6129 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule cong :premises (t6127 t6128))
% 32.29/32.52 (step t6130 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) true)) :rule all_simplify)
% 32.29/32.52 (step t6131 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) true)) :rule trans :premises (t6129 t6130))
% 32.29/32.52 (step t6132 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) true)) :rule trans :premises (t6126 t6131))
% 32.29/32.52 (step t6133 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t6125 t6132))
% 32.29/32.52 (step t6134 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule refl)
% 32.29/32.52 (step t6135 (cl (= (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))))) :rule cong :premises (t5685 t4 t6133 t6134))
% 32.29/32.52 (step t6136 (cl (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule and_neg)
% 32.29/32.52 (step t6137 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6138)
% 32.29/32.52 (assume t6138.a0 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.52 (assume t6138.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6138.a2 (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))
% 32.29/32.52 (step t6138.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6138.t2)
% 32.29/32.52 (assume t6138.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))
% 32.29/32.52 (assume t6138.t2.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))
% 32.29/32.52 (step t6138.t2.t1 (cl (= (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) false) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6138.t2.t2 (cl (not (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) false)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule equiv1 :premises (t6138.t2.t1))
% 32.29/32.52 (step t6138.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e22) tptp.e23)) :rule symm :premises (t6138.t2.a1))
% 32.29/32.52 (step t6138.t2.t4 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule symm :premises (t6138.t2.t3))
% 32.29/32.52 (step t6138.t2.t5 (cl (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) :rule refl)
% 32.29/32.52 (step t6138.t2.t6 (cl (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule cong :premises (t6138.t2.t4 t6138.t2.t5))
% 32.29/32.52 (step t6138.t2.t7 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) false) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6138.t2.t8 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) :rule equiv2 :premises (t6138.t2.t7))
% 32.29/32.52 (step t6138.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) :rule not_not)
% 32.29/32.52 (step t6138.t2.t10 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) false) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) :rule resolution :premises (t6138.t2.t8 t6138.t2.t9))
% 32.29/32.52 (step t6138.t2.t11 (cl (= (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) false)) :rule resolution :premises (t6138.t2.t10 t6138.t2.a0))
% 32.29/32.52 (step t6138.t2.t12 (cl (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)) false)) :rule trans :premises (t6138.t2.t6 t6138.t2.t11))
% 32.29/32.52 (step t6138.t2.t13 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t6138.t2.t2 t6138.t2.t12))
% 32.29/32.52 (step t6138.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule subproof :discharge (t6138.t2.a0 t6138.t2.a1))
% 32.29/32.52 (step t6138.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6138.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t6138.t5 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t6138.t2 t6138.t3 t6138.t4))
% 32.29/32.52 (step t6138.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule reordering :premises (t6138.t5))
% 32.29/32.52 (step t6138.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule contraction :premises (t6138.t6))
% 32.29/32.52 (step t6138.t8 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t6138.t1 t6138.t7))
% 32.29/32.52 (step t6138.t9 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule implies_neg2)
% 32.29/32.52 (step t6138.t10 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule resolution :premises (t6138.t8 t6138.t9))
% 32.29/32.52 (step t6138.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule contraction :premises (t6138.t10))
% 32.29/32.52 (step t6138.t12 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule implies :premises (t6138.t11))
% 32.29/32.52 (step t6138.t13 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule and_neg)
% 32.29/32.52 (step t6138.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6138.t15)
% 32.29/32.52 (assume t6138.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6138.t15.a1 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.52 (step t6138.t15.t1 (cl (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23)) :rule symm :premises (t6138.t15.a1))
% 32.29/32.52 (step t6138.t15.t2 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule symm :premises (t6138.t15.t1))
% 32.29/32.52 (step t6138.t15.t3 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.52 (step t6138.t15.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6138.t15.a0))
% 32.29/32.52 (step t6138.t15.t5 (cl (= (tptp.op2 tptp.e23 tptp.unit2) (tptp.op2 tptp.e23 tptp.e22))) :rule cong :premises (t6138.t15.t3 t6138.t15.t4))
% 32.29/32.52 (step t6138.t15.t6 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule trans :premises (t6138.t15.t2 t6138.t15.t5))
% 32.29/32.52 (step t6138.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule subproof :discharge (t6138.t15.a0 t6138.t15.a1))
% 32.29/32.52 (step t6138.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6138.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6138.t18 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule resolution :premises (t6138.t15 t6138.t16 t6138.t17))
% 32.29/32.52 (step t6138.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule reordering :premises (t6138.t18))
% 32.29/32.52 (step t6138.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule contraction :premises (t6138.t19))
% 32.29/32.52 (step t6138.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t6138.t14 t6138.t20))
% 32.29/32.52 (step t6138.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t6138.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6138.t21 t6138.t22))
% 32.29/32.52 (step t6138.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule contraction :premises (t6138.t23))
% 32.29/32.52 (step t6138.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule implies :premises (t6138.t24))
% 32.29/32.52 (step t6138.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t6138.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))) :rule resolution :premises (t6138.t26 t6138.a1 t6138.a0))
% 32.29/32.52 (step t6138.t28 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t6138.t25 t6138.t27))
% 32.29/32.52 (step t6138.t29 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6138.t13 t6138.a2 t6138.t28))
% 32.29/32.52 (step t6138.t30 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t6138.t12 t6138.t29))
% 32.29/32.52 (step t6138 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule subproof :discharge (t6138.a0 t6138.a1 t6138.a2))
% 32.29/32.52 (step t6139 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6140 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6141 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6142 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))))) :rule resolution :premises (t6138 t6139 t6140 t6141))
% 32.29/32.52 (step t6143 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule reordering :premises (t6142))
% 32.29/32.52 (step t6144 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule contraction :premises (t6143))
% 32.29/32.52 (step t6145 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t6137 t6144))
% 32.29/32.52 (step t6146 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule implies_neg2)
% 32.29/32.52 (step t6147 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule resolution :premises (t6145 t6146))
% 32.29/32.52 (step t6148 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule contraction :premises (t6147))
% 32.29/32.52 (step t6149 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22))))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule implies :premises (t6148))
% 32.29/32.52 (step t6150 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t6136 t6149))
% 32.29/32.52 (step t6151 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t6152 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.52 (step t6153 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))))) :rule or_neg)
% 32.29/32.52 (step t6154 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule or_neg)
% 32.29/32.52 (step t6155 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule resolution :premises (t6150 t6151 t6152 t6153 t6154))
% 32.29/32.52 (step t6156 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule contraction :premises (t6155))
% 32.29/32.52 (step t6157 (cl (or (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))))) :rule resolution :premises (t6123 t6135 t6156))
% 32.29/32.52 (step t6158 (cl (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22)))) :rule or :premises (t6157))
% 32.29/32.52 (step t6159 (cl (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t6158))
% 32.29/32.52 (step t6160 (cl (not (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e21 tptp.e22)))) :rule and :premises (t459))
% 32.29/32.52 (step t6161 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.52 (step t6162 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.52 (step t6163 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule equiv1 :premises (t6162))
% 32.29/32.52 (step t6164 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))))) :rule all_simplify)
% 32.29/32.52 (step t6165 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule refl)
% 32.29/32.52 (step t6166 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.29/32.52 (step t6167 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) :rule cong :premises (t6165 t6166))
% 32.29/32.52 (step t6168 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) true)) :rule all_simplify)
% 32.29/32.52 (step t6169 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) true)) :rule trans :premises (t6167 t6168))
% 32.29/32.52 (step t6170 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) true)) :rule trans :premises (t6164 t6169))
% 32.29/32.52 (step t6171 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6163 t6170))
% 32.29/32.52 (step t6172 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule refl)
% 32.29/32.52 (step t6173 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))))) :rule cong :premises (t222 t2928 t6171 t6172))
% 32.29/32.52 (step t6174 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) :rule and_neg)
% 32.29/32.52 (step t6175 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6176)
% 32.29/32.52 (assume t6176.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t6176.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (assume t6176.a2 (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))
% 32.29/32.52 (step t6176.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6176.t2)
% 32.29/32.52 (assume t6176.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))
% 32.29/32.52 (assume t6176.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))
% 32.29/32.52 (step t6176.t2.t1 (cl (= (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) false) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.52 (step t6176.t2.t2 (cl (not (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) false)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule equiv1 :premises (t6176.t2.t1))
% 32.29/32.52 (step t6176.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) :rule symm :premises (t6176.t2.a1))
% 32.29/32.52 (step t6176.t2.t4 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule symm :premises (t6176.t2.t3))
% 32.29/32.52 (step t6176.t2.t5 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) :rule refl)
% 32.29/32.52 (step t6176.t2.t6 (cl (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t6176.t2.t4 t6176.t2.t5))
% 32.29/32.52 (step t6176.t2.t7 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) false) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.52 (step t6176.t2.t8 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv2 :premises (t6176.t2.t7))
% 32.29/32.52 (step t6176.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) :rule not_not)
% 32.29/32.52 (step t6176.t2.t10 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) false) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) :rule resolution :premises (t6176.t2.t8 t6176.t2.t9))
% 32.29/32.52 (step t6176.t2.t11 (cl (= (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) false)) :rule resolution :premises (t6176.t2.t10 t6176.t2.a0))
% 32.29/32.52 (step t6176.t2.t12 (cl (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)) false)) :rule trans :premises (t6176.t2.t6 t6176.t2.t11))
% 32.29/32.52 (step t6176.t2.t13 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6176.t2.t2 t6176.t2.t12))
% 32.29/32.52 (step t6176.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule subproof :discharge (t6176.t2.a0 t6176.t2.a1))
% 32.29/32.52 (step t6176.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule and_pos)
% 32.29/32.52 (step t6176.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule and_pos)
% 32.29/32.52 (step t6176.t5 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))))) :rule resolution :premises (t6176.t2 t6176.t3 t6176.t4))
% 32.29/32.52 (step t6176.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule reordering :premises (t6176.t5))
% 32.29/32.52 (step t6176.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule contraction :premises (t6176.t6))
% 32.29/32.52 (step t6176.t8 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6176.t1 t6176.t7))
% 32.29/32.52 (step t6176.t9 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule implies_neg2)
% 32.29/32.52 (step t6176.t10 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t6176.t8 t6176.t9))
% 32.29/32.52 (step t6176.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule contraction :premises (t6176.t10))
% 32.29/32.52 (step t6176.t12 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies :premises (t6176.t11))
% 32.29/32.52 (step t6176.t13 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule and_neg)
% 32.29/32.52 (step t6176.t14 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6176.t15)
% 32.29/32.52 (assume t6176.t15.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t6176.t15.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (step t6176.t15.t1 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t6176.t15.a1))
% 32.29/32.52 (step t6176.t15.t2 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t6176.t15.t1))
% 32.29/32.52 (step t6176.t15.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6176.t15.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t6176.t15.a0))
% 32.29/32.52 (step t6176.t15.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t6176.t15.t3 t6176.t15.t4))
% 32.29/32.52 (step t6176.t15.t6 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule trans :premises (t6176.t15.t2 t6176.t15.t5))
% 32.29/32.52 (step t6176.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule subproof :discharge (t6176.t15.a0 t6176.t15.a1))
% 32.29/32.52 (step t6176.t16 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6176.t17 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6176.t18 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule resolution :premises (t6176.t15 t6176.t16 t6176.t17))
% 32.29/32.52 (step t6176.t19 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule reordering :premises (t6176.t18))
% 32.29/32.52 (step t6176.t20 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule contraction :premises (t6176.t19))
% 32.29/32.52 (step t6176.t21 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule resolution :premises (t6176.t14 t6176.t20))
% 32.29/32.52 (step t6176.t22 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule implies_neg2)
% 32.29/32.52 (step t6176.t23 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t6176.t21 t6176.t22))
% 32.29/32.52 (step t6176.t24 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule contraction :premises (t6176.t23))
% 32.29/32.52 (step t6176.t25 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule implies :premises (t6176.t24))
% 32.29/32.52 (step t6176.t26 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule and_neg)
% 32.29/32.52 (step t6176.t27 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t6176.t26 t6176.a0 t6176.a1))
% 32.29/32.52 (step t6176.t28 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule resolution :premises (t6176.t25 t6176.t27))
% 32.29/32.52 (step t6176.t29 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t6176.t13 t6176.a2 t6176.t28))
% 32.29/32.52 (step t6176.t30 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6176.t12 t6176.t29))
% 32.29/32.52 (step t6176 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule subproof :discharge (t6176.a0 t6176.a1 t6176.a2))
% 32.29/32.52 (step t6177 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6178 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6179 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule and_pos)
% 32.29/32.52 (step t6180 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))))) :rule resolution :premises (t6176 t6177 t6178 t6179))
% 32.29/32.52 (step t6181 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule reordering :premises (t6180))
% 32.29/32.52 (step t6182 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule contraction :premises (t6181))
% 32.29/32.52 (step t6183 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6175 t6182))
% 32.29/32.52 (step t6184 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule implies_neg2)
% 32.29/32.52 (step t6185 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t6183 t6184))
% 32.29/32.52 (step t6186 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule contraction :premises (t6185))
% 32.29/32.52 (step t6187 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies :premises (t6186))
% 32.29/32.52 (step t6188 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6174 t6187))
% 32.29/32.52 (step t6189 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6190 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t6191 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))))) :rule or_neg)
% 32.29/32.52 (step t6192 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule or_neg)
% 32.29/32.52 (step t6193 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t6188 t6189 t6190 t6191 t6192))
% 32.29/32.52 (step t6194 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule contraction :premises (t6193))
% 32.29/32.52 (step t6195 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t6161 t6173 t6194))
% 32.29/32.52 (step t6196 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21)))) :rule or :premises (t6195))
% 32.29/32.52 (step t6197 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule reordering :premises (t6196))
% 32.29/32.52 (step t6198 (cl (not (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 tptp.e21 tptp.e21)))) :rule and :premises (t459))
% 32.29/32.52 (step t6199 (cl (not (= (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))))) (not (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule equiv_pos2)
% 32.29/32.52 (step t6200 (cl (= (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))))) :rule refl)
% 32.29/32.52 (step t6201 (cl (= (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) true) (= (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) :rule equiv_simplify)
% 32.29/32.52 (step t6202 (cl (not (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) true)) (= (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule equiv1 :premises (t6201))
% 32.29/32.52 (step t6203 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))))) :rule all_simplify)
% 32.29/32.52 (step t6204 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule refl)
% 32.29/32.52 (step t6205 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule all_simplify)
% 32.29/32.52 (step t6206 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) :rule cong :premises (t6204 t6205))
% 32.29/32.52 (step t6207 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) true)) :rule all_simplify)
% 32.29/32.52 (step t6208 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) true)) :rule trans :premises (t6206 t6207))
% 32.29/32.52 (step t6209 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) true)) :rule trans :premises (t6203 t6208))
% 32.29/32.52 (step t6210 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule resolution :premises (t6202 t6209))
% 32.29/32.52 (step t6211 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule refl)
% 32.29/32.52 (step t6212 (cl (= (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))))) :rule cong :premises (t6200 t4 t6210 t6211))
% 32.29/32.52 (step t6213 (cl (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) :rule and_neg)
% 32.29/32.52 (step t6214 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6215)
% 32.29/32.52 (assume t6215.a0 (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))
% 32.29/32.52 (assume t6215.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6215.a2 (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))
% 32.29/32.52 (step t6215.t1 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6215.t2)
% 32.29/32.52 (assume t6215.t2.a0 (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))
% 32.29/32.52 (assume t6215.t2.a1 (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))
% 32.29/32.52 (step t6215.t2.t1 (cl (= (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) false) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule equiv_simplify)
% 32.29/32.52 (step t6215.t2.t2 (cl (not (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) false)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule equiv1 :premises (t6215.t2.t1))
% 32.29/32.52 (step t6215.t2.t3 (cl (= (tptp.op2 tptp.e22 tptp.e23) tptp.e23)) :rule symm :premises (t6215.t2.a1))
% 32.29/32.52 (step t6215.t2.t4 (cl (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) :rule symm :premises (t6215.t2.t3))
% 32.29/32.52 (step t6215.t2.t5 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) :rule refl)
% 32.29/32.52 (step t6215.t2.t6 (cl (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule cong :premises (t6215.t2.t4 t6215.t2.t5))
% 32.29/32.52 (step t6215.t2.t7 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) false) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) :rule equiv_simplify)
% 32.29/32.52 (step t6215.t2.t8 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) false) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) :rule equiv2 :premises (t6215.t2.t7))
% 32.29/32.52 (step t6215.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) :rule not_not)
% 32.29/32.52 (step t6215.t2.t10 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) false) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) :rule resolution :premises (t6215.t2.t8 t6215.t2.t9))
% 32.29/32.52 (step t6215.t2.t11 (cl (= (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) false)) :rule resolution :premises (t6215.t2.t10 t6215.t2.a0))
% 32.29/32.52 (step t6215.t2.t12 (cl (= (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)) false)) :rule trans :premises (t6215.t2.t6 t6215.t2.t11))
% 32.29/32.52 (step t6215.t2.t13 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule resolution :premises (t6215.t2.t2 t6215.t2.t12))
% 32.29/32.52 (step t6215.t2 (cl (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule subproof :discharge (t6215.t2.a0 t6215.t2.a1))
% 32.29/32.52 (step t6215.t3 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule and_pos)
% 32.29/32.52 (step t6215.t4 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) :rule and_pos)
% 32.29/32.52 (step t6215.t5 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))))) :rule resolution :premises (t6215.t2 t6215.t3 t6215.t4))
% 32.29/32.52 (step t6215.t6 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule reordering :premises (t6215.t5))
% 32.29/32.52 (step t6215.t7 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule contraction :premises (t6215.t6))
% 32.29/32.52 (step t6215.t8 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule resolution :premises (t6215.t1 t6215.t7))
% 32.29/32.52 (step t6215.t9 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule implies_neg2)
% 32.29/32.52 (step t6215.t10 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (=> (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule resolution :premises (t6215.t8 t6215.t9))
% 32.29/32.52 (step t6215.t11 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule contraction :premises (t6215.t10))
% 32.29/32.52 (step t6215.t12 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule implies :premises (t6215.t11))
% 32.29/32.52 (step t6215.t13 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) :rule and_neg)
% 32.29/32.52 (step t6215.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6215.t15)
% 32.29/32.52 (assume t6215.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6215.t15.a1 (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))
% 32.29/32.52 (step t6215.t15.t1 (cl (= (tptp.op2 tptp.unit2 tptp.e23) tptp.e23)) :rule symm :premises (t6215.t15.a1))
% 32.29/32.52 (step t6215.t15.t2 (cl (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule symm :premises (t6215.t15.t1))
% 32.29/32.52 (step t6215.t15.t3 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6215.t15.a0))
% 32.29/32.52 (step t6215.t15.t4 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.52 (step t6215.t15.t5 (cl (= (tptp.op2 tptp.unit2 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) :rule cong :premises (t6215.t15.t3 t6215.t15.t4))
% 32.29/32.52 (step t6215.t15.t6 (cl (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) :rule trans :premises (t6215.t15.t2 t6215.t15.t5))
% 32.29/32.52 (step t6215.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) :rule subproof :discharge (t6215.t15.a0 t6215.t15.a1))
% 32.29/32.52 (step t6215.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6215.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule and_pos)
% 32.29/32.52 (step t6215.t18 (cl (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))))) :rule resolution :premises (t6215.t15 t6215.t16 t6215.t17))
% 32.29/32.52 (step t6215.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) :rule reordering :premises (t6215.t18))
% 32.29/32.52 (step t6215.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) :rule contraction :premises (t6215.t19))
% 32.29/32.52 (step t6215.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) :rule resolution :premises (t6215.t14 t6215.t20))
% 32.29/32.52 (step t6215.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) :rule implies_neg2)
% 32.29/32.52 (step t6215.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) :rule resolution :premises (t6215.t21 t6215.t22))
% 32.29/32.52 (step t6215.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) :rule contraction :premises (t6215.t23))
% 32.29/32.52 (step t6215.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) :rule implies :premises (t6215.t24))
% 32.29/32.52 (step t6215.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) :rule and_neg)
% 32.29/32.52 (step t6215.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))) :rule resolution :premises (t6215.t26 t6215.a1 t6215.a0))
% 32.29/32.52 (step t6215.t28 (cl (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23))) :rule resolution :premises (t6215.t25 t6215.t27))
% 32.29/32.52 (step t6215.t29 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e23)))) :rule resolution :premises (t6215.t13 t6215.a2 t6215.t28))
% 32.29/32.52 (step t6215.t30 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule resolution :premises (t6215.t12 t6215.t29))
% 32.29/32.52 (step t6215 (cl (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule subproof :discharge (t6215.a0 t6215.a1 t6215.a2))
% 32.29/32.52 (step t6216 (cl (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule and_pos)
% 32.29/32.52 (step t6217 (cl (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6218 (cl (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule and_pos)
% 32.29/32.52 (step t6219 (cl (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))) (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))))) :rule resolution :premises (t6215 t6216 t6217 t6218))
% 32.29/32.52 (step t6220 (cl (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule reordering :premises (t6219))
% 32.29/32.52 (step t6221 (cl (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule contraction :premises (t6220))
% 32.29/32.52 (step t6222 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule resolution :premises (t6214 t6221))
% 32.29/32.52 (step t6223 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule implies_neg2)
% 32.29/32.52 (step t6224 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (=> (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule resolution :premises (t6222 t6223))
% 32.29/32.52 (step t6225 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule contraction :premises (t6224))
% 32.29/32.52 (step t6226 (cl (not (and (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23))))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule implies :premises (t6225))
% 32.29/32.52 (step t6227 (cl (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule resolution :premises (t6213 t6226))
% 32.29/32.52 (step t6228 (cl (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (not (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))))) :rule or_neg)
% 32.29/32.52 (step t6229 (cl (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.52 (step t6230 (cl (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (not (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))))) :rule or_neg)
% 32.29/32.52 (step t6231 (cl (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (not (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule or_neg)
% 32.29/32.52 (step t6232 (cl (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule resolution :premises (t6227 t6228 t6229 t6230 t6231))
% 32.29/32.52 (step t6233 (cl (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule contraction :premises (t6232))
% 32.29/32.52 (step t6234 (cl (or (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))))) :rule resolution :premises (t6199 t6212 t6233))
% 32.29/32.52 (step t6235 (cl (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23)))) :rule or :premises (t6234))
% 32.29/32.52 (step t6236 (cl (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t6235))
% 32.29/32.52 (step t6237 (cl (not (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 tptp.e21 tptp.e23)))) :rule and :premises (t459))
% 32.29/32.52 (step t6238 (cl (not (= (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))))) (not (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_pos2)
% 32.29/32.52 (step t6239 (cl (= (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) true) (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.52 (step t6240 (cl (not (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) true)) (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) :rule equiv1 :premises (t6239))
% 32.29/32.52 (step t6241 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))))) :rule all_simplify)
% 32.29/32.52 (step t6242 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) :rule refl)
% 32.29/32.52 (step t6243 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) :rule all_simplify)
% 32.29/32.52 (step t6244 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) :rule cong :premises (t6242 t6243))
% 32.29/32.52 (step t6245 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) true)) :rule all_simplify)
% 32.29/32.52 (step t6246 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) true)) :rule trans :premises (t6244 t6245))
% 32.29/32.52 (step t6247 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) true)) :rule trans :premises (t6241 t6246))
% 32.29/32.52 (step t6248 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t6240 t6247))
% 32.29/32.52 (step t6249 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule refl)
% 32.29/32.52 (step t6250 (cl (= (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))))) :rule cong :premises (t5849 t6248 t6249))
% 32.29/32.52 (step t6251 (cl (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) :rule and_neg)
% 32.29/32.52 (step t6252 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6253)
% 32.29/32.52 (assume t6253.a0 (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.52 (assume t6253.a1 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))
% 32.29/32.52 (step t6253.t1 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6253.t2)
% 32.29/32.52 (assume t6253.t2.a0 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))
% 32.29/32.52 (assume t6253.t2.a1 (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.52 (step t6253.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) false) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.52 (step t6253.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) false)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule equiv1 :premises (t6253.t2.t1))
% 32.29/32.52 (step t6253.t2.t3 (cl (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) :rule symm :premises (t6253.t2.a1))
% 32.29/32.52 (step t6253.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule symm :premises (t6253.t2.t3))
% 32.29/32.52 (step t6253.t2.t5 (cl (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule refl)
% 32.29/32.52 (step t6253.t2.t6 (cl (= (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) :rule cong :premises (t6253.t2.t4 t6253.t2.t5))
% 32.29/32.52 (step t6253.t2.t7 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) false) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv_simplify)
% 32.29/32.52 (step t6253.t2.t8 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) false) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) :rule equiv2 :premises (t6253.t2.t7))
% 32.29/32.52 (step t6253.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) :rule not_not)
% 32.29/32.52 (step t6253.t2.t10 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) false) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) :rule resolution :premises (t6253.t2.t8 t6253.t2.t9))
% 32.29/32.52 (step t6253.t2.t11 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) false)) :rule resolution :premises (t6253.t2.t10 t6253.t2.a0))
% 32.29/32.52 (step t6253.t2.t12 (cl (= (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)) false)) :rule trans :premises (t6253.t2.t6 t6253.t2.t11))
% 32.29/32.52 (step t6253.t2.t13 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t6253.t2.t2 t6253.t2.t12))
% 32.29/32.52 (step t6253.t2 (cl (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule subproof :discharge (t6253.t2.a0 t6253.t2.a1))
% 32.29/32.52 (step t6253.t3 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) :rule and_pos)
% 32.29/32.52 (step t6253.t4 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6253.t5 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6253.t2 t6253.t3 t6253.t4))
% 32.29/32.52 (step t6253.t6 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule reordering :premises (t6253.t5))
% 32.29/32.52 (step t6253.t7 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule contraction :premises (t6253.t6))
% 32.29/32.52 (step t6253.t8 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t6253.t1 t6253.t7))
% 32.29/32.52 (step t6253.t9 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule implies_neg2)
% 32.29/32.52 (step t6253.t10 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t6253.t8 t6253.t9))
% 32.29/32.52 (step t6253.t11 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule contraction :premises (t6253.t10))
% 32.29/32.52 (step t6253.t12 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule implies :premises (t6253.t11))
% 32.29/32.52 (step t6253.t13 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6253.t14 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6253.t13 t6253.a1 t6253.a0))
% 32.29/32.52 (step t6253.t15 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t6253.t12 t6253.t14))
% 32.29/32.52 (step t6253 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule subproof :discharge (t6253.a0 t6253.a1))
% 32.29/32.52 (step t6254 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6255 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) :rule and_pos)
% 32.29/32.52 (step t6256 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))) (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))))) :rule resolution :premises (t6253 t6254 t6255))
% 32.29/32.52 (step t6257 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule reordering :premises (t6256))
% 32.29/32.52 (step t6258 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule contraction :premises (t6257))
% 32.29/32.52 (step t6259 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t6252 t6258))
% 32.29/32.52 (step t6260 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule implies_neg2)
% 32.29/32.52 (step t6261 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t6259 t6260))
% 32.29/32.52 (step t6262 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule contraction :premises (t6261))
% 32.29/32.52 (step t6263 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20))))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule implies :premises (t6262))
% 32.29/32.52 (step t6264 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule resolution :premises (t6251 t6263))
% 32.29/32.52 (step t6265 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6266 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))))) :rule or_neg)
% 32.29/32.52 (step t6267 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (not (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule or_neg)
% 32.29/32.52 (step t6268 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t6264 t6265 t6266 t6267))
% 32.29/32.52 (step t6269 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule contraction :premises (t6268))
% 32.29/32.52 (step t6270 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))))) :rule resolution :premises (t6238 t6250 t6269))
% 32.29/32.52 (step t6271 (cl (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20)))) :rule or :premises (t6270))
% 32.29/32.52 (step t6272 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule reordering :premises (t6271))
% 32.29/32.52 (step t6273 (cl (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e20)))) :rule and :premises (t459))
% 32.29/32.52 (step t6274 (cl (not (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))))) (not (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.52 (step t6275 (cl (= (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) true) (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6276 (cl (not (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) true)) (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) :rule equiv1 :premises (t6275))
% 32.29/32.52 (step t6277 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))))) :rule all_simplify)
% 32.29/32.52 (step t6278 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) :rule refl)
% 32.29/32.52 (step t6279 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) :rule all_simplify)
% 32.29/32.52 (step t6280 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))) (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))) :rule cong :premises (t6278 t6279))
% 32.29/32.52 (step t6281 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) true)) :rule all_simplify)
% 32.29/32.52 (step t6282 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))) true)) :rule trans :premises (t6280 t6281))
% 32.29/32.52 (step t6283 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) true)) :rule trans :premises (t6277 t6282))
% 32.29/32.52 (step t6284 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) :rule resolution :premises (t6276 t6283))
% 32.29/32.52 (step t6285 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t6286 (cl (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))))) :rule cong :premises (t2927 t2928 t5849 t5475 t4 t6284 t6034 t5486 t6285))
% 32.29/32.52 (step t6287 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule and_neg)
% 32.29/32.52 (step t6288 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6289)
% 32.29/32.52 (assume t6289.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.52 (assume t6289.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (assume t6289.a2 (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.52 (assume t6289.a3 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.52 (assume t6289.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6289.a5 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))
% 32.29/32.52 (assume t6289.a6 (= tptp.e22 (tptp.h3 tptp.e14)))
% 32.29/32.52 (assume t6289.a7 (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))
% 32.29/32.52 (step t6289.t1 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6289.t2)
% 32.29/32.52 (assume t6289.t2.a0 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))
% 32.29/32.52 (assume t6289.t2.a1 (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.52 (assume t6289.t2.a2 (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))
% 32.29/32.52 (assume t6289.t2.a3 (= tptp.e22 (tptp.h3 tptp.e11)))
% 32.29/32.52 (assume t6289.t2.a4 (= tptp.e22 (tptp.h3 tptp.e14)))
% 32.29/32.52 (assume t6289.t2.a5 (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))
% 32.29/32.52 (step t6289.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) false) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6289.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) false)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule equiv1 :premises (t6289.t2.t1))
% 32.29/32.52 (step t6289.t2.t3 (cl (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) :rule symm :premises (t6289.t2.a1))
% 32.29/32.52 (step t6289.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule symm :premises (t6289.t2.t3))
% 32.29/32.52 (step t6289.t2.t5 (cl (= (tptp.h3 tptp.e14) tptp.e22)) :rule symm :premises (t6289.t2.a4))
% 32.29/32.52 (step t6289.t2.t6 (cl (= (tptp.h3 tptp.e11) tptp.e22)) :rule symm :premises (t6289.t2.a3))
% 32.29/32.52 (step t6289.t2.t7 (cl (= tptp.e22 (tptp.h3 tptp.e11))) :rule symm :premises (t6289.t2.t6))
% 32.29/32.52 (step t6289.t2.t8 (cl (= (tptp.h3 tptp.e11) (tptp.op2 tptp.e22 tptp.e22))) :rule symm :premises (t6289.t2.a2))
% 32.29/32.52 (step t6289.t2.t9 (cl (= (tptp.h3 tptp.e14) (tptp.op2 tptp.e22 tptp.e22))) :rule trans :premises (t6289.t2.t5 t6289.t2.t7 t6289.t2.t8))
% 32.29/32.52 (step t6289.t2.t10 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e14))) :rule symm :premises (t6289.t2.t9))
% 32.29/32.52 (step t6289.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) :rule symm :premises (t6289.t2.a5))
% 32.29/32.52 (step t6289.t2.t12 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.h3 tptp.e14))) :rule trans :premises (t6289.t2.t11 t6289.t2.a4))
% 32.29/32.52 (step t6289.t2.t13 (cl (= (tptp.h3 tptp.e14) (tptp.op2 tptp.e23 tptp.e24))) :rule symm :premises (t6289.t2.t12))
% 32.29/32.52 (step t6289.t2.t14 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 tptp.e23 tptp.e24))) :rule trans :premises (t6289.t2.t10 t6289.t2.t13))
% 32.29/32.52 (step t6289.t2.t15 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) :rule symm :premises (t6289.t2.t14))
% 32.29/32.52 (step t6289.t2.t16 (cl (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) :rule cong :premises (t6289.t2.t4 t6289.t2.t15))
% 32.29/32.52 (step t6289.t2.t17 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) false) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6289.t2.t18 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) false) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))) :rule equiv2 :premises (t6289.t2.t17))
% 32.29/32.52 (step t6289.t2.t19 (cl (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) :rule not_not)
% 32.29/32.52 (step t6289.t2.t20 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) false) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) :rule resolution :premises (t6289.t2.t18 t6289.t2.t19))
% 32.29/32.52 (step t6289.t2.t21 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) false)) :rule resolution :premises (t6289.t2.t20 t6289.t2.a0))
% 32.29/32.52 (step t6289.t2.t22 (cl (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)) false)) :rule trans :premises (t6289.t2.t16 t6289.t2.t21))
% 32.29/32.52 (step t6289.t2.t23 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6289.t2.t2 t6289.t2.t22))
% 32.29/32.52 (step t6289.t2 (cl (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule subproof :discharge (t6289.t2.a0 t6289.t2.a1 t6289.t2.a2 t6289.t2.a3 t6289.t2.a4 t6289.t2.a5))
% 32.29/32.52 (step t6289.t3 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6289.t4 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6289.t5 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.52 (step t6289.t6 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.52 (step t6289.t7 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e22 (tptp.h3 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t6289.t8 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6289.t9 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6289.t2 t6289.t3 t6289.t4 t6289.t5 t6289.t6 t6289.t7 t6289.t8))
% 32.29/32.52 (step t6289.t10 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule reordering :premises (t6289.t9))
% 32.29/32.52 (step t6289.t11 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t6289.t10))
% 32.29/32.52 (step t6289.t12 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6289.t1 t6289.t11))
% 32.29/32.52 (step t6289.t13 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6289.t14 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6289.t12 t6289.t13))
% 32.29/32.52 (step t6289.t15 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule contraction :premises (t6289.t14))
% 32.29/32.52 (step t6289.t16 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies :premises (t6289.t15))
% 32.29/32.52 (step t6289.t17 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6289.t18 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6289.t19)
% 32.29/32.52 (assume t6289.t19.a0 (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))
% 32.29/32.52 (assume t6289.t19.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6289.t19.a2 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.52 (step t6289.t19.t1 (cl (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22)) :rule symm :premises (t6289.t19.a2))
% 32.29/32.52 (step t6289.t19.t2 (cl (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule symm :premises (t6289.t19.t1))
% 32.29/32.52 (step t6289.t19.t3 (cl (= tptp.e22 tptp.e22)) :rule refl)
% 32.29/32.52 (step t6289.t19.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6289.t19.a1))
% 32.29/32.52 (step t6289.t19.t5 (cl (= (tptp.op2 tptp.e22 tptp.unit2) (tptp.op2 tptp.e22 tptp.e22))) :rule cong :premises (t6289.t19.t3 t6289.t19.t4))
% 32.29/32.52 (step t6289.t19.t6 (cl (= (tptp.h3 tptp.e11) (tptp.op2 tptp.e22 tptp.e22))) :rule symm :premises (t6289.t19.a0))
% 32.29/32.52 (step t6289.t19.t7 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule symm :premises (t6289.t19.t6))
% 32.29/32.52 (step t6289.t19.t8 (cl (= tptp.e22 (tptp.h3 tptp.e11))) :rule trans :premises (t6289.t19.t2 t6289.t19.t5 t6289.t19.t7))
% 32.29/32.52 (step t6289.t19 (cl (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule subproof :discharge (t6289.t19.a0 t6289.t19.a1 t6289.t19.a2))
% 32.29/32.52 (step t6289.t20 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.52 (step t6289.t21 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6289.t22 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6289.t23 (cl (= tptp.e22 (tptp.h3 tptp.e11)) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))))) :rule resolution :premises (t6289.t19 t6289.t20 t6289.t21 t6289.t22))
% 32.29/32.52 (step t6289.t24 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule reordering :premises (t6289.t23))
% 32.29/32.52 (step t6289.t25 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule contraction :premises (t6289.t24))
% 32.29/32.52 (step t6289.t26 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule resolution :premises (t6289.t18 t6289.t25))
% 32.29/32.52 (step t6289.t27 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (not (= tptp.e22 (tptp.h3 tptp.e11)))) :rule implies_neg2)
% 32.29/32.52 (step t6289.t28 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11))) (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11)))) :rule resolution :premises (t6289.t26 t6289.t27))
% 32.29/32.52 (step t6289.t29 (cl (=> (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.h3 tptp.e11)))) :rule contraction :premises (t6289.t28))
% 32.29/32.52 (step t6289.t30 (cl (not (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) (= tptp.e22 (tptp.h3 tptp.e11))) :rule implies :premises (t6289.t29))
% 32.29/32.52 (step t6289.t31 (cl (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t6289.t32 (cl (and (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))) :rule resolution :premises (t6289.t31 t6289.a7 t6289.a4 t6289.a3))
% 32.29/32.52 (step t6289.t33 (cl (= tptp.e22 (tptp.h3 tptp.e11))) :rule resolution :premises (t6289.t30 t6289.t32))
% 32.29/32.52 (step t6289.t34 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6289.t35)
% 32.29/32.52 (assume t6289.t35.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (assume t6289.t35.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.52 (step t6289.t35.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t6289.t35.a1))
% 32.29/32.52 (step t6289.t35.t2 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t6289.t35.t1))
% 32.29/32.52 (step t6289.t35.t3 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t6289.t35.a0))
% 32.29/32.52 (step t6289.t35.t4 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t6289.t35.t3))
% 32.29/32.52 (step t6289.t35.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t6289.t35.t4))
% 32.29/32.52 (step t6289.t35.t6 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6289.t35.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t6289.t35.t5 t6289.t35.t6))
% 32.29/32.52 (step t6289.t35.t8 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule trans :premises (t6289.t35.t2 t6289.t35.t7))
% 32.29/32.52 (step t6289.t35 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule subproof :discharge (t6289.t35.a0 t6289.t35.a1))
% 32.29/32.52 (step t6289.t36 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6289.t37 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6289.t38 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule resolution :premises (t6289.t35 t6289.t36 t6289.t37))
% 32.29/32.52 (step t6289.t39 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule reordering :premises (t6289.t38))
% 32.29/32.52 (step t6289.t40 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule contraction :premises (t6289.t39))
% 32.29/32.52 (step t6289.t41 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t6289.t34 t6289.t40))
% 32.29/32.52 (step t6289.t42 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg2)
% 32.29/32.52 (step t6289.t43 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6289.t41 t6289.t42))
% 32.29/32.52 (step t6289.t44 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t6289.t43))
% 32.29/32.52 (step t6289.t45 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule implies :premises (t6289.t44))
% 32.29/32.52 (step t6289.t46 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6289.t47 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule resolution :premises (t6289.t46 t6289.a1 t6289.a0))
% 32.29/32.52 (step t6289.t48 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t6289.t45 t6289.t47))
% 32.29/32.52 (step t6289.t49 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e11)) (= tptp.e22 (tptp.h3 tptp.e14)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6289.t17 t6289.a5 t6289.a2 t6289.a7 t6289.t33 t6289.a6 t6289.t48))
% 32.29/32.52 (step t6289.t50 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6289.t16 t6289.t49))
% 32.29/32.52 (step t6289 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule subproof :discharge (t6289.a0 t6289.a1 t6289.a2 t6289.a3 t6289.a4 t6289.a5 t6289.a6 t6289.a7))
% 32.29/32.52 (step t6290 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6291 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6292 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6293 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6294 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6295 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6296 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= tptp.e22 (tptp.h3 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t6297 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) :rule and_pos)
% 32.29/32.52 (step t6298 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))))) :rule resolution :premises (t6289 t6290 t6291 t6292 t6293 t6294 t6295 t6296 t6297))
% 32.29/32.52 (step t6299 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule reordering :premises (t6298))
% 32.29/32.52 (step t6300 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t6299))
% 32.29/32.52 (step t6301 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6288 t6300))
% 32.29/32.52 (step t6302 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6303 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6301 t6302))
% 32.29/32.52 (step t6304 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule contraction :premises (t6303))
% 32.29/32.52 (step t6305 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22))) (= tptp.e22 (tptp.h3 tptp.e14)) (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies :premises (t6304))
% 32.29/32.52 (step t6306 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6287 t6305))
% 32.29/32.52 (step t6307 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6308 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t6309 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6310 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t6311 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.52 (step t6312 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))))) :rule or_neg)
% 32.29/32.52 (step t6313 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e22 (tptp.h3 tptp.e14))))) :rule or_neg)
% 32.29/32.52 (step t6314 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))))) :rule or_neg)
% 32.29/32.52 (step t6315 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6316 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6306 t6307 t6308 t6309 t6310 t6311 t6312 t6313 t6314 t6315))
% 32.29/32.52 (step t6317 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule contraction :premises (t6316))
% 32.29/32.52 (step t6318 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6274 t6286 t6317))
% 32.29/32.52 (step t6319 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24)))) :rule or :premises (t6318))
% 32.29/32.52 (step t6320 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule reordering :premises (t6319))
% 32.29/32.52 (step t6321 (cl (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e22)))) :rule and :premises (t459))
% 32.29/32.52 (step t6322 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11)))) :rule resolution :premises (t6075 t6121 t6122 t6159 t6160 t6197 t6198 t6236 t4420 t6237 t6272 t6273 t6320 t6321))
% 32.29/32.52 (step t6323 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule contraction :premises (t6322))
% 32.29/32.52 (step t6324 (cl (or (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule and :premises (t218))
% 32.29/32.52 (step t6325 (cl (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule or :premises (t6324))
% 32.29/32.52 (step t6326 (cl (not (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule equiv_pos2)
% 32.29/32.52 (step t6327 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t6328 (cl (= (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true) (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6329 (cl (not (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true)) (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule equiv1 :premises (t6328))
% 32.29/32.52 (step t6330 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) :rule all_simplify)
% 32.29/32.52 (step t6331 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule refl)
% 32.29/32.52 (step t6332 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule all_simplify)
% 32.29/32.52 (step t6333 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t6331 t6332))
% 32.29/32.52 (step t6334 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true)) :rule all_simplify)
% 32.29/32.52 (step t6335 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) true)) :rule trans :premises (t6333 t6334))
% 32.29/32.52 (step t6336 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) true)) :rule trans :premises (t6330 t6335))
% 32.29/32.52 (step t6337 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6329 t6336))
% 32.29/32.52 (step t6338 (cl (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule cong :premises (t5595 t222 t6327 t3 t6337))
% 32.29/32.52 (step t6339 (cl (not (= (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) (not (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule equiv_pos2)
% 32.29/32.52 (step t6340 (cl (= (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule refl)
% 32.29/32.52 (step t6341 (cl (= (= (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) :rule equiv_simplify)
% 32.29/32.52 (step t6342 (cl (= (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) (not (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) :rule equiv2 :premises (t6341))
% 32.29/32.52 (step t6343 (cl (not (not (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule not_not)
% 32.29/32.52 (step t6344 (cl (= (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t6342 t6343))
% 32.29/32.52 (step t6345 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6346)
% 32.29/32.52 (assume t6346.a0 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.29/32.52 (assume t6346.a1 (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.52 (assume t6346.a2 (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))
% 32.29/32.52 (assume t6346.a3 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))
% 32.29/32.52 (step t6346.t1 (cl (not (= (= false true) false)) (not (= false true)) false) :rule equiv_pos2)
% 32.29/32.52 (step t6346.t2 (cl (= (= false true) false)) :rule all_simplify)
% 32.29/32.52 (step t6346.t3 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6346.t4 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule equiv2 :premises (t6346.t3))
% 32.29/32.52 (step t6346.t5 (cl (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule not_not)
% 32.29/32.52 (step t6346.t6 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t6346.t4 t6346.t5))
% 32.29/32.52 (step t6346.t7 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) false)) :rule resolution :premises (t6346.t6 t6346.a3))
% 32.29/32.52 (step t6346.t8 (cl (= false (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule symm :premises (t6346.t7))
% 32.29/32.52 (step t6346.t9 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) true) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule equiv_simplify)
% 32.29/32.52 (step t6346.t10 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) true) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule equiv2 :premises (t6346.t9))
% 32.29/32.52 (step t6346.t11 (cl (= (tptp.op2 tptp.e22 tptp.e24) tptp.e20)) :rule symm :premises (t6346.a1))
% 32.29/32.52 (step t6346.t12 (cl (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20)) :rule symm :premises (t6346.a0))
% 32.29/32.52 (step t6346.t13 (cl (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule symm :premises (t6346.t12))
% 32.29/32.52 (step t6346.t14 (cl (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) :rule symm :premises (t6346.a2))
% 32.29/32.52 (step t6346.t15 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.unit2 tptp.e20))) :rule trans :premises (t6346.t14 t6346.t13))
% 32.29/32.52 (step t6346.t16 (cl (= (tptp.op2 tptp.unit2 tptp.e20) (tptp.op2 tptp.e21 tptp.e24))) :rule symm :premises (t6346.t15))
% 32.29/32.52 (step t6346.t17 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule trans :premises (t6346.t11 t6346.t13 t6346.t16))
% 32.29/32.52 (step t6346.t18 (cl (= (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) true)) :rule resolution :premises (t6346.t10 t6346.t17))
% 32.29/32.52 (step t6346.t19 (cl (= false true)) :rule trans :premises (t6346.t8 t6346.t18))
% 32.29/32.52 (step t6346.t20 (cl false) :rule resolution :premises (t6346.t1 t6346.t2 t6346.t19))
% 32.29/32.52 (step t6346 (cl (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) :rule subproof :discharge (t6346.a0 t6346.a1 t6346.a2 t6346.a3))
% 32.29/32.52 (step t6347 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.29/32.52 (step t6348 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6349 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6350 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6351 (cl false (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule resolution :premises (t6346 t6347 t6348 t6349 t6350))
% 32.29/32.52 (step t6352 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) false) :rule reordering :premises (t6351))
% 32.29/32.52 (step t6353 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) false) :rule contraction :premises (t6352))
% 32.29/32.52 (step t6354 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) false) :rule resolution :premises (t6345 t6353))
% 32.29/32.52 (step t6355 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) (not false)) :rule implies_neg2)
% 32.29/32.52 (step t6356 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false)) :rule resolution :premises (t6354 t6355))
% 32.29/32.52 (step t6357 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false)) :rule contraction :premises (t6356))
% 32.29/32.52 (step t6358 (cl (= (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) :rule implies_simplify)
% 32.29/32.52 (step t6359 (cl (not (=> (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false)) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule equiv1 :premises (t6358))
% 32.29/32.52 (step t6360 (cl (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule resolution :premises (t6357 t6359))
% 32.29/32.52 (step t6361 (cl (= (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false)) :rule resolution :premises (t6344 t6360))
% 32.29/32.52 (step t6362 (cl (= (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false))) :rule cong :premises (t6340 t6361))
% 32.29/32.52 (step t6363 (cl (= (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) false) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) :rule all_simplify)
% 32.29/32.52 (step t6364 (cl (= (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))))) :rule trans :premises (t6362 t6363))
% 32.29/32.52 (step t6365 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6366)
% 32.29/32.52 (assume t6366.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.52 (assume t6366.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t6366.a2 (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.52 (assume t6366.a3 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.29/32.52 (assume t6366.a4 (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))
% 32.29/32.52 (step t6366.t1 (cl (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule and_neg)
% 32.29/32.52 (step t6366.t2 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6366.t3)
% 32.29/32.52 (assume t6366.t3.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t6366.t3.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.52 (step t6366.t3.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t6366.t3.a1))
% 32.29/32.52 (step t6366.t3.t2 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t6366.t3.t1))
% 32.29/32.52 (step t6366.t3.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t6366.t3.a0))
% 32.29/32.52 (step t6366.t3.t4 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6366.t3.t5 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t6366.t3.t3 t6366.t3.t4))
% 32.29/32.52 (step t6366.t3.t6 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule trans :premises (t6366.t3.t2 t6366.t3.t5))
% 32.29/32.52 (step t6366.t3 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule subproof :discharge (t6366.t3.a0 t6366.t3.a1))
% 32.29/32.52 (step t6366.t4 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6366.t5 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6366.t6 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule resolution :premises (t6366.t3 t6366.t4 t6366.t5))
% 32.29/32.52 (step t6366.t7 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule reordering :premises (t6366.t6))
% 32.29/32.52 (step t6366.t8 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule contraction :premises (t6366.t7))
% 32.29/32.52 (step t6366.t9 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t6366.t2 t6366.t8))
% 32.29/32.52 (step t6366.t10 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies_neg2)
% 32.29/32.52 (step t6366.t11 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6366.t9 t6366.t10))
% 32.29/32.52 (step t6366.t12 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule contraction :premises (t6366.t11))
% 32.29/32.52 (step t6366.t13 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule implies :premises (t6366.t12))
% 32.29/32.52 (step t6366.t14 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6366.t15 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule resolution :premises (t6366.t14 t6366.a1 t6366.a0))
% 32.29/32.52 (step t6366.t16 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t6366.t13 t6366.t15))
% 32.29/32.52 (step t6366.t17 (cl (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t6366.t1 t6366.a3 t6366.a2 t6366.t16 t6366.a4))
% 32.29/32.52 (step t6366 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule subproof :discharge (t6366.a0 t6366.a1 t6366.a2 t6366.a3 t6366.a4))
% 32.29/32.52 (step t6367 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6368 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6369 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6370 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.29/32.52 (step t6371 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6372 (cl (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule resolution :premises (t6366 t6367 t6368 t6369 t6370 t6371))
% 32.29/32.52 (step t6373 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule reordering :premises (t6372))
% 32.29/32.52 (step t6374 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule contraction :premises (t6373))
% 32.29/32.52 (step t6375 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t6365 t6374))
% 32.29/32.52 (step t6376 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule implies_neg2)
% 32.29/32.52 (step t6377 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule resolution :premises (t6375 t6376))
% 32.29/32.52 (step t6378 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) (and (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule contraction :premises (t6377))
% 32.29/32.52 (step t6379 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule resolution :premises (t6339 t6364 t6378))
% 32.29/32.52 (step t6380 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) :rule not_and :premises (t6379))
% 32.29/32.52 (step t6381 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6382 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6383 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6384 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))))) :rule or_neg)
% 32.29/32.52 (step t6385 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (not (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t6386 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule resolution :premises (t6380 t6381 t6382 t6383 t6384 t6385))
% 32.29/32.52 (step t6387 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))))) :rule contraction :premises (t6386))
% 32.29/32.52 (step t6388 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6326 t6338 t6387))
% 32.29/32.52 (step t6389 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule or :premises (t6388))
% 32.29/32.52 (step t6390 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule reordering :premises (t6389))
% 32.29/32.52 (step t6391 (cl (not (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e21 tptp.e24)))) :rule and :premises (t459))
% 32.29/32.52 (step t6392 (cl (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6390 t461 t865 t6391 t4442))
% 32.29/32.52 (step t6393 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.52 (step t6394 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6395 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule equiv1 :premises (t6394))
% 32.29/32.52 (step t6396 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))))) :rule all_simplify)
% 32.29/32.52 (step t6397 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule refl)
% 32.29/32.52 (step t6398 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule all_simplify)
% 32.29/32.52 (step t6399 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t6397 t6398))
% 32.29/32.52 (step t6400 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) true)) :rule all_simplify)
% 32.29/32.52 (step t6401 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) true)) :rule trans :premises (t6399 t6400))
% 32.29/32.52 (step t6402 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) true)) :rule trans :premises (t6396 t6401))
% 32.29/32.52 (step t6403 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6395 t6402))
% 32.29/32.52 (step t6404 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t6405 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))))) :rule cong :premises (t222 t6403 t6404))
% 32.29/32.52 (step t6406 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule and_neg)
% 32.29/32.52 (step t6407 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6408)
% 32.29/32.52 (assume t6408.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t6408.a1 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))
% 32.29/32.52 (step t6408.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6408.t2)
% 32.29/32.52 (assume t6408.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))
% 32.29/32.52 (assume t6408.t2.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (step t6408.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) false) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6408.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) false)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule equiv1 :premises (t6408.t2.t1))
% 32.29/32.52 (step t6408.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t6408.t2.a1))
% 32.29/32.52 (step t6408.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t6408.t2.t3))
% 32.29/32.52 (step t6408.t2.t5 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule refl)
% 32.29/32.52 (step t6408.t2.t6 (cl (= (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule cong :premises (t6408.t2.t4 t6408.t2.t5))
% 32.29/32.52 (step t6408.t2.t7 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) false) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6408.t2.t8 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv2 :premises (t6408.t2.t7))
% 32.29/32.52 (step t6408.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule not_not)
% 32.29/32.52 (step t6408.t2.t10 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) false) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule resolution :premises (t6408.t2.t8 t6408.t2.t9))
% 32.29/32.52 (step t6408.t2.t11 (cl (= (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) false)) :rule resolution :premises (t6408.t2.t10 t6408.t2.a0))
% 32.29/32.52 (step t6408.t2.t12 (cl (= (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)) false)) :rule trans :premises (t6408.t2.t6 t6408.t2.t11))
% 32.29/32.52 (step t6408.t2.t13 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6408.t2.t2 t6408.t2.t12))
% 32.29/32.52 (step t6408.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule subproof :discharge (t6408.t2.a0 t6408.t2.a1))
% 32.29/32.52 (step t6408.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6408.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6408.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t6408.t2 t6408.t3 t6408.t4))
% 32.29/32.52 (step t6408.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule reordering :premises (t6408.t5))
% 32.29/32.52 (step t6408.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule contraction :premises (t6408.t6))
% 32.29/32.52 (step t6408.t8 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6408.t1 t6408.t7))
% 32.29/32.52 (step t6408.t9 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6408.t10 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6408.t8 t6408.t9))
% 32.29/32.52 (step t6408.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule contraction :premises (t6408.t10))
% 32.29/32.52 (step t6408.t12 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies :premises (t6408.t11))
% 32.29/32.52 (step t6408.t13 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6408.t14 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule resolution :premises (t6408.t13 t6408.a1 t6408.a0))
% 32.29/32.52 (step t6408.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6408.t12 t6408.t14))
% 32.29/32.52 (step t6408 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule subproof :discharge (t6408.a0 t6408.a1))
% 32.29/32.52 (step t6409 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6410 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6411 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))))) :rule resolution :premises (t6408 t6409 t6410))
% 32.29/32.52 (step t6412 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule reordering :premises (t6411))
% 32.29/32.52 (step t6413 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule contraction :premises (t6412))
% 32.29/32.52 (step t6414 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6407 t6413))
% 32.29/32.52 (step t6415 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6416 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6414 t6415))
% 32.29/32.52 (step t6417 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule contraction :premises (t6416))
% 32.29/32.52 (step t6418 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies :premises (t6417))
% 32.29/32.52 (step t6419 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6406 t6418))
% 32.29/32.52 (step t6420 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6421 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t6422 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6423 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6419 t6420 t6421 t6422))
% 32.29/32.52 (step t6424 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule contraction :premises (t6423))
% 32.29/32.52 (step t6425 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6393 t6405 t6424))
% 32.29/32.52 (step t6426 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24)))) :rule or :premises (t6425))
% 32.29/32.52 (step t6427 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))) :rule reordering :premises (t6426))
% 32.29/32.52 (step t6428 (cl (not (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule and :premises (t459))
% 32.29/32.52 (step t6429 (cl (not (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))))) (not (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.52 (step t6430 (cl (= (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) true) (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6431 (cl (not (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) true)) (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule equiv1 :premises (t6430))
% 32.29/32.52 (step t6432 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))))) :rule all_simplify)
% 32.29/32.52 (step t6433 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule refl)
% 32.29/32.52 (step t6434 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule all_simplify)
% 32.29/32.52 (step t6435 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule cong :premises (t6433 t6434))
% 32.29/32.52 (step t6436 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) true)) :rule all_simplify)
% 32.29/32.52 (step t6437 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) true)) :rule trans :premises (t6435 t6436))
% 32.29/32.52 (step t6438 (cl (= (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) true)) :rule trans :premises (t6432 t6437))
% 32.29/32.52 (step t6439 (cl (= (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6431 t6438))
% 32.29/32.52 (step t6440 (cl (= (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t6441 (cl (= (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))))) :rule cong :premises (t2927 t2928 t6439 t6440))
% 32.29/32.52 (step t6442 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule and_neg)
% 32.29/32.52 (step t6443 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6444)
% 32.29/32.52 (assume t6444.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.52 (assume t6444.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (assume t6444.a2 (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))
% 32.29/32.52 (step t6444.t1 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6444.t2)
% 32.29/32.52 (assume t6444.t2.a0 (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))
% 32.29/32.52 (assume t6444.t2.a1 (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))
% 32.29/32.52 (step t6444.t2.t1 (cl (= (= (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) false) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6444.t2.t2 (cl (not (= (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) false)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule equiv1 :premises (t6444.t2.t1))
% 32.29/32.52 (step t6444.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e24) tptp.e22)) :rule symm :premises (t6444.t2.a1))
% 32.29/32.52 (step t6444.t2.t4 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule symm :premises (t6444.t2.t3))
% 32.29/32.52 (step t6444.t2.t5 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule refl)
% 32.29/32.52 (step t6444.t2.t6 (cl (= (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule cong :premises (t6444.t2.t4 t6444.t2.t5))
% 32.29/32.52 (step t6444.t2.t7 (cl (= (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) false) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6444.t2.t8 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) false) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv2 :premises (t6444.t2.t7))
% 32.29/32.52 (step t6444.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule not_not)
% 32.29/32.52 (step t6444.t2.t10 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) false) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule resolution :premises (t6444.t2.t8 t6444.t2.t9))
% 32.29/32.52 (step t6444.t2.t11 (cl (= (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) false)) :rule resolution :premises (t6444.t2.t10 t6444.t2.a0))
% 32.29/32.52 (step t6444.t2.t12 (cl (= (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)) false)) :rule trans :premises (t6444.t2.t6 t6444.t2.t11))
% 32.29/32.52 (step t6444.t2.t13 (cl (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6444.t2.t2 t6444.t2.t12))
% 32.29/32.52 (step t6444.t2 (cl (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule subproof :discharge (t6444.t2.a0 t6444.t2.a1))
% 32.29/32.52 (step t6444.t3 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6444.t4 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6444.t5 (cl (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))))) :rule resolution :premises (t6444.t2 t6444.t3 t6444.t4))
% 32.29/32.52 (step t6444.t6 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule reordering :premises (t6444.t5))
% 32.29/32.52 (step t6444.t7 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule contraction :premises (t6444.t6))
% 32.29/32.52 (step t6444.t8 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6444.t1 t6444.t7))
% 32.29/32.52 (step t6444.t9 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6444.t10 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6444.t8 t6444.t9))
% 32.29/32.52 (step t6444.t11 (cl (=> (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule contraction :premises (t6444.t10))
% 32.29/32.52 (step t6444.t12 (cl (not (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies :premises (t6444.t11))
% 32.29/32.52 (step t6444.t13 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6444.t14 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6444.t15)
% 32.29/32.52 (assume t6444.t15.a0 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (assume t6444.t15.a1 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.52 (step t6444.t15.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t6444.t15.a1))
% 32.29/32.52 (step t6444.t15.t2 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t6444.t15.t1))
% 32.29/32.52 (step t6444.t15.t3 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t6444.t15.a0))
% 32.29/32.52 (step t6444.t15.t4 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t6444.t15.t3))
% 32.29/32.52 (step t6444.t15.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t6444.t15.t4))
% 32.29/32.52 (step t6444.t15.t6 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6444.t15.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t6444.t15.t5 t6444.t15.t6))
% 32.29/32.52 (step t6444.t15.t8 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule trans :premises (t6444.t15.t2 t6444.t15.t7))
% 32.29/32.52 (step t6444.t15 (cl (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule subproof :discharge (t6444.t15.a0 t6444.t15.a1))
% 32.29/32.52 (step t6444.t16 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6444.t17 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6444.t18 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule resolution :premises (t6444.t15 t6444.t16 t6444.t17))
% 32.29/32.52 (step t6444.t19 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule reordering :premises (t6444.t18))
% 32.29/32.52 (step t6444.t20 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule contraction :premises (t6444.t19))
% 32.29/32.52 (step t6444.t21 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t6444.t14 t6444.t20))
% 32.29/32.52 (step t6444.t22 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule implies_neg2)
% 32.29/32.52 (step t6444.t23 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6444.t21 t6444.t22))
% 32.29/32.52 (step t6444.t24 (cl (=> (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule contraction :premises (t6444.t23))
% 32.29/32.52 (step t6444.t25 (cl (not (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule implies :premises (t6444.t24))
% 32.29/32.52 (step t6444.t26 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6444.t27 (cl (and (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))) :rule resolution :premises (t6444.t26 t6444.a1 t6444.a0))
% 32.29/32.52 (step t6444.t28 (cl (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24))) :rule resolution :premises (t6444.t25 t6444.t27))
% 32.29/32.52 (step t6444.t29 (cl (and (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e24)))) :rule resolution :premises (t6444.t13 t6444.a2 t6444.t28))
% 32.29/32.52 (step t6444.t30 (cl (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6444.t12 t6444.t29))
% 32.29/32.52 (step t6444 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule subproof :discharge (t6444.a0 t6444.a1 t6444.a2))
% 32.29/32.52 (step t6445 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6446 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6447 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6448 (cl (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))))) :rule resolution :premises (t6444 t6445 t6446 t6447))
% 32.29/32.52 (step t6449 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule reordering :premises (t6448))
% 32.29/32.52 (step t6450 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule contraction :premises (t6449))
% 32.29/32.52 (step t6451 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6443 t6450))
% 32.29/32.52 (step t6452 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6453 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6451 t6452))
% 32.29/32.52 (step t6454 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule contraction :premises (t6453))
% 32.29/32.52 (step t6455 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies :premises (t6454))
% 32.29/32.52 (step t6456 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6442 t6455))
% 32.29/32.52 (step t6457 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6458 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t6459 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t6460 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6461 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6456 t6457 t6458 t6459 t6460))
% 32.29/32.52 (step t6462 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule contraction :premises (t6461))
% 32.29/32.52 (step t6463 (cl (or (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6429 t6441 t6462))
% 32.29/32.52 (step t6464 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24)))) :rule or :premises (t6463))
% 32.29/32.52 (step t6465 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule reordering :premises (t6464))
% 32.29/32.52 (step t6466 (cl (not (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 tptp.e22 tptp.e24)))) :rule and :premises (t459))
% 32.29/32.52 (step t6467 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t6323 t6325 t6392 t6427 t6428 t6465 t6466))
% 32.29/32.52 (step t6468 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule contraction :premises (t6467))
% 32.29/32.52 (step t6469 (cl (not (= (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (or (= tptp.e23 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))))) (not (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) (or (= tptp.e23 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_pos2)
% 32.29/32.52 (step t6470 (cl (= (= (= (not (not (= tptp.e23 tptp.e24))) (= tptp.e23 tptp.e24)) true) (= (not (not (= tptp.e23 tptp.e24))) (= tptp.e23 tptp.e24)))) :rule equiv_simplify)
% 32.29/32.52 (step t6471 (cl (not (= (= (not (not (= tptp.e23 tptp.e24))) (= tptp.e23 tptp.e24)) true)) (= (not (not (= tptp.e23 tptp.e24))) (= tptp.e23 tptp.e24))) :rule equiv1 :premises (t6470))
% 32.29/32.52 (step t6472 (cl (= (= (not (not (= tptp.e23 tptp.e24))) (= tptp.e23 tptp.e24)) (= (= tptp.e23 tptp.e24) (not (not (= tptp.e23 tptp.e24)))))) :rule all_simplify)
% 32.29/32.52 (step t6473 (cl (= (= tptp.e23 tptp.e24) (= tptp.e23 tptp.e24))) :rule refl)
% 32.29/32.52 (step t6474 (cl (= (not (not (= tptp.e23 tptp.e24))) (= tptp.e23 tptp.e24))) :rule all_simplify)
% 32.29/32.52 (step t6475 (cl (= (= (= tptp.e23 tptp.e24) (not (not (= tptp.e23 tptp.e24)))) (= (= tptp.e23 tptp.e24) (= tptp.e23 tptp.e24)))) :rule cong :premises (t6473 t6474))
% 32.29/32.52 (step t6476 (cl (= (= (= tptp.e23 tptp.e24) (= tptp.e23 tptp.e24)) true)) :rule all_simplify)
% 32.29/32.52 (step t6477 (cl (= (= (= tptp.e23 tptp.e24) (not (not (= tptp.e23 tptp.e24)))) true)) :rule trans :premises (t6475 t6476))
% 32.29/32.52 (step t6478 (cl (= (= (not (not (= tptp.e23 tptp.e24))) (= tptp.e23 tptp.e24)) true)) :rule trans :premises (t6472 t6477))
% 32.29/32.52 (step t6479 (cl (= (not (not (= tptp.e23 tptp.e24))) (= tptp.e23 tptp.e24))) :rule resolution :premises (t6471 t6478))
% 32.29/32.52 (step t6480 (cl (= (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t6481 (cl (= (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule refl)
% 32.29/32.52 (step t6482 (cl (= (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (or (= tptp.e23 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))))) :rule cong :premises (t6479 t6480 t4 t6481))
% 32.29/32.52 (step t6483 (cl (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2)) (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2))) :rule and_neg)
% 32.29/32.52 (step t6484 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6485)
% 32.29/32.52 (assume t6485.a0 (not (= tptp.e23 tptp.e24)))
% 32.29/32.52 (assume t6485.a1 (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))
% 32.29/32.52 (assume t6485.a2 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (step t6485.t1 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6485.t2)
% 32.29/32.52 (assume t6485.t2.a0 (not (= tptp.e23 tptp.e24)))
% 32.29/32.52 (assume t6485.t2.a1 (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))
% 32.29/32.52 (step t6485.t2.t1 (cl (= (= (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) false) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule equiv_simplify)
% 32.29/32.52 (step t6485.t2.t2 (cl (not (= (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) false)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule equiv1 :premises (t6485.t2.t1))
% 32.29/32.52 (step t6485.t2.t3 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.52 (step t6485.t2.t4 (cl (= (tptp.op2 tptp.e22 tptp.e24) tptp.e24)) :rule symm :premises (t6485.t2.a1))
% 32.29/32.52 (step t6485.t2.t5 (cl (= (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) (= tptp.e23 tptp.e24))) :rule cong :premises (t6485.t2.t3 t6485.t2.t4))
% 32.29/32.52 (step t6485.t2.t6 (cl (= (= (= tptp.e23 tptp.e24) false) (not (= tptp.e23 tptp.e24)))) :rule equiv_simplify)
% 32.29/32.52 (step t6485.t2.t7 (cl (= (= tptp.e23 tptp.e24) false) (not (not (= tptp.e23 tptp.e24)))) :rule equiv2 :premises (t6485.t2.t6))
% 32.29/32.52 (step t6485.t2.t8 (cl (not (not (not (= tptp.e23 tptp.e24)))) (= tptp.e23 tptp.e24)) :rule not_not)
% 32.29/32.52 (step t6485.t2.t9 (cl (= (= tptp.e23 tptp.e24) false) (= tptp.e23 tptp.e24)) :rule resolution :premises (t6485.t2.t7 t6485.t2.t8))
% 32.29/32.52 (step t6485.t2.t10 (cl (= (= tptp.e23 tptp.e24) false)) :rule resolution :premises (t6485.t2.t9 t6485.t2.a0))
% 32.29/32.52 (step t6485.t2.t11 (cl (= (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)) false)) :rule trans :premises (t6485.t2.t5 t6485.t2.t10))
% 32.29/32.52 (step t6485.t2.t12 (cl (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6485.t2.t2 t6485.t2.t11))
% 32.29/32.52 (step t6485.t2 (cl (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule subproof :discharge (t6485.t2.a0 t6485.t2.a1))
% 32.29/32.52 (step t6485.t3 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e23 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6485.t4 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6485.t5 (cl (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))) (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6485.t2 t6485.t3 t6485.t4))
% 32.29/32.52 (step t6485.t6 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule reordering :premises (t6485.t5))
% 32.29/32.52 (step t6485.t7 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule contraction :premises (t6485.t6))
% 32.29/32.52 (step t6485.t8 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6485.t1 t6485.t7))
% 32.29/32.52 (step t6485.t9 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6485.t10 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6485.t8 t6485.t9))
% 32.29/32.52 (step t6485.t11 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule contraction :premises (t6485.t10))
% 32.29/32.52 (step t6485.t12 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies :premises (t6485.t11))
% 32.29/32.52 (step t6485.t13 (cl (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6485.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6485.t15)
% 32.29/32.52 (assume t6485.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6485.t15.a1 (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))
% 32.29/32.52 (step t6485.t15.t1 (cl (= (tptp.op2 tptp.unit2 tptp.e24) tptp.e24)) :rule symm :premises (t6485.t15.a1))
% 32.29/32.52 (step t6485.t15.t2 (cl (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule symm :premises (t6485.t15.t1))
% 32.29/32.52 (step t6485.t15.t3 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6485.t15.a0))
% 32.29/32.52 (step t6485.t15.t4 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6485.t15.t5 (cl (= (tptp.op2 tptp.unit2 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule cong :premises (t6485.t15.t3 t6485.t15.t4))
% 32.29/32.52 (step t6485.t15.t6 (cl (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule trans :premises (t6485.t15.t2 t6485.t15.t5))
% 32.29/32.52 (step t6485.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule subproof :discharge (t6485.t15.a0 t6485.t15.a1))
% 32.29/32.52 (step t6485.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6485.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6485.t18 (cl (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))))) :rule resolution :premises (t6485.t15 t6485.t16 t6485.t17))
% 32.29/32.52 (step t6485.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule reordering :premises (t6485.t18))
% 32.29/32.52 (step t6485.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule contraction :premises (t6485.t19))
% 32.29/32.52 (step t6485.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule resolution :premises (t6485.t14 t6485.t20))
% 32.29/32.52 (step t6485.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies_neg2)
% 32.29/32.52 (step t6485.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6485.t21 t6485.t22))
% 32.29/32.52 (step t6485.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule contraction :premises (t6485.t23))
% 32.29/32.52 (step t6485.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule implies :premises (t6485.t24))
% 32.29/32.52 (step t6485.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) :rule and_neg)
% 32.29/32.52 (step t6485.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))) :rule resolution :premises (t6485.t26 t6485.a2 t6485.a1))
% 32.29/32.52 (step t6485.t28 (cl (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24))) :rule resolution :premises (t6485.t25 t6485.t27))
% 32.29/32.52 (step t6485.t29 (cl (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6485.t13 t6485.a0 t6485.t28))
% 32.29/32.52 (step t6485.t30 (cl (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6485.t12 t6485.t29))
% 32.29/32.52 (step t6485 (cl (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule subproof :discharge (t6485.a0 t6485.a1 t6485.a2))
% 32.29/32.52 (step t6486 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (not (= tptp.e23 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6487 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6488 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6489 (cl (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))) (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2)))) :rule resolution :premises (t6485 t6486 t6487 t6488))
% 32.29/32.52 (step t6490 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule reordering :premises (t6489))
% 32.29/32.52 (step t6491 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule contraction :premises (t6490))
% 32.29/32.52 (step t6492 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6484 t6491))
% 32.29/32.52 (step t6493 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule implies_neg2)
% 32.29/32.52 (step t6494 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6492 t6493))
% 32.29/32.52 (step t6495 (cl (=> (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule contraction :premises (t6494))
% 32.29/32.52 (step t6496 (cl (not (and (not (= tptp.e23 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2))) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule implies :premises (t6495))
% 32.29/32.52 (step t6497 (cl (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule resolution :premises (t6483 t6496))
% 32.29/32.52 (step t6498 (cl (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (not (= tptp.e23 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6499 (cl (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6500 (cl (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.52 (step t6501 (cl (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (not (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6502 (cl (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6497 t6498 t6499 t6500 t6501))
% 32.29/32.52 (step t6503 (cl (or (not (not (= tptp.e23 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule contraction :premises (t6502))
% 32.29/32.52 (step t6504 (cl (or (= tptp.e23 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))))) :rule resolution :premises (t6469 t6482 t6503))
% 32.29/32.52 (step t6505 (cl (= tptp.e23 tptp.e24) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24)))) :rule or :premises (t6504))
% 32.29/32.52 (step t6506 (cl (= tptp.e23 tptp.e24) (not (= tptp.e23 (tptp.op2 tptp.e22 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t6505))
% 32.29/32.52 (step t6507 (cl (not (= tptp.e23 tptp.e24))) :rule and :premises (a9))
% 32.29/32.52 (step t6508 (cl (not (= (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))))) (not (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule equiv_pos2)
% 32.29/32.52 (step t6509 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6510 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) :rule equiv1 :premises (t6509))
% 32.29/32.52 (step t6511 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))))) :rule all_simplify)
% 32.29/32.52 (step t6512 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) :rule refl)
% 32.29/32.52 (step t6513 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) :rule all_simplify)
% 32.29/32.52 (step t6514 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) :rule cong :premises (t6512 t6513))
% 32.29/32.52 (step t6515 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) true)) :rule all_simplify)
% 32.29/32.52 (step t6516 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) true)) :rule trans :premises (t6514 t6515))
% 32.29/32.52 (step t6517 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) true)) :rule trans :premises (t6511 t6516))
% 32.29/32.52 (step t6518 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6510 t6517))
% 32.29/32.52 (step t6519 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule refl)
% 32.29/32.52 (step t6520 (cl (= (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))))) :rule cong :premises (t5566 t4 t6518 t6519))
% 32.29/32.52 (step t6521 (cl (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) :rule and_neg)
% 32.29/32.52 (step t6522 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6523)
% 32.29/32.52 (assume t6523.a0 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.52 (assume t6523.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6523.a2 (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))
% 32.29/32.52 (step t6523.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6523.t2)
% 32.29/32.52 (assume t6523.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))
% 32.29/32.52 (assume t6523.t2.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))
% 32.29/32.52 (step t6523.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) false) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6523.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) false)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule equiv1 :premises (t6523.t2.t1))
% 32.29/32.52 (step t6523.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) :rule symm :premises (t6523.t2.a1))
% 32.29/32.52 (step t6523.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule symm :premises (t6523.t2.t3))
% 32.29/32.52 (step t6523.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) :rule refl)
% 32.29/32.52 (step t6523.t2.t6 (cl (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) :rule cong :premises (t6523.t2.t4 t6523.t2.t5))
% 32.29/32.52 (step t6523.t2.t7 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) false) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6523.t2.t8 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) :rule equiv2 :premises (t6523.t2.t7))
% 32.29/32.52 (step t6523.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) :rule not_not)
% 32.29/32.52 (step t6523.t2.t10 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) false) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t6523.t2.t8 t6523.t2.t9))
% 32.29/32.52 (step t6523.t2.t11 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) false)) :rule resolution :premises (t6523.t2.t10 t6523.t2.a0))
% 32.29/32.52 (step t6523.t2.t12 (cl (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) false)) :rule trans :premises (t6523.t2.t6 t6523.t2.t11))
% 32.29/32.52 (step t6523.t2.t13 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6523.t2.t2 t6523.t2.t12))
% 32.29/32.52 (step t6523.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule subproof :discharge (t6523.t2.a0 t6523.t2.a1))
% 32.29/32.52 (step t6523.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6523.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t6523.t5 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))))) :rule resolution :premises (t6523.t2 t6523.t3 t6523.t4))
% 32.29/32.52 (step t6523.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule reordering :premises (t6523.t5))
% 32.29/32.52 (step t6523.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule contraction :premises (t6523.t6))
% 32.29/32.52 (step t6523.t8 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6523.t1 t6523.t7))
% 32.29/32.52 (step t6523.t9 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule implies_neg2)
% 32.29/32.52 (step t6523.t10 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t6523.t8 t6523.t9))
% 32.29/32.52 (step t6523.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule contraction :premises (t6523.t10))
% 32.29/32.52 (step t6523.t12 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies :premises (t6523.t11))
% 32.29/32.52 (step t6523.t13 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule and_neg)
% 32.29/32.52 (step t6523.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6523.t15)
% 32.29/32.52 (assume t6523.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6523.t15.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.52 (step t6523.t15.t1 (cl (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24)) :rule symm :premises (t6523.t15.a1))
% 32.29/32.52 (step t6523.t15.t2 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule symm :premises (t6523.t15.t1))
% 32.29/32.52 (step t6523.t15.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6523.t15.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6523.t15.a0))
% 32.29/32.52 (step t6523.t15.t5 (cl (= (tptp.op2 tptp.e24 tptp.unit2) (tptp.op2 tptp.e24 tptp.e22))) :rule cong :premises (t6523.t15.t3 t6523.t15.t4))
% 32.29/32.52 (step t6523.t15.t6 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule trans :premises (t6523.t15.t2 t6523.t15.t5))
% 32.29/32.52 (step t6523.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule subproof :discharge (t6523.t15.a0 t6523.t15.a1))
% 32.29/32.52 (step t6523.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6523.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6523.t18 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))))) :rule resolution :premises (t6523.t15 t6523.t16 t6523.t17))
% 32.29/32.52 (step t6523.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule reordering :premises (t6523.t18))
% 32.29/32.52 (step t6523.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule contraction :premises (t6523.t19))
% 32.29/32.52 (step t6523.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule resolution :premises (t6523.t14 t6523.t20))
% 32.29/32.52 (step t6523.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t6523.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t6523.t21 t6523.t22))
% 32.29/32.52 (step t6523.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule contraction :premises (t6523.t23))
% 32.29/32.52 (step t6523.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule implies :premises (t6523.t24))
% 32.29/32.52 (step t6523.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t6523.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule resolution :premises (t6523.t26 t6523.a1 t6523.a0))
% 32.29/32.52 (step t6523.t28 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule resolution :premises (t6523.t25 t6523.t27))
% 32.29/32.52 (step t6523.t29 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t6523.t13 t6523.a2 t6523.t28))
% 32.29/32.52 (step t6523.t30 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6523.t12 t6523.t29))
% 32.29/32.52 (step t6523 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule subproof :discharge (t6523.a0 t6523.a1 t6523.a2))
% 32.29/32.52 (step t6524 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6525 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6526 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6527 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))))) :rule resolution :premises (t6523 t6524 t6525 t6526))
% 32.29/32.52 (step t6528 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule reordering :premises (t6527))
% 32.29/32.52 (step t6529 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule contraction :premises (t6528))
% 32.29/32.52 (step t6530 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6522 t6529))
% 32.29/32.52 (step t6531 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule implies_neg2)
% 32.29/32.52 (step t6532 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t6530 t6531))
% 32.29/32.52 (step t6533 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule contraction :premises (t6532))
% 32.29/32.52 (step t6534 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22))))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule implies :premises (t6533))
% 32.29/32.52 (step t6535 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule resolution :premises (t6521 t6534))
% 32.29/32.52 (step t6536 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t6537 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.52 (step t6538 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))))) :rule or_neg)
% 32.29/32.52 (step t6539 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule or_neg)
% 32.29/32.52 (step t6540 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t6535 t6536 t6537 t6538 t6539))
% 32.29/32.52 (step t6541 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule contraction :premises (t6540))
% 32.29/32.52 (step t6542 (cl (or (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))))) :rule resolution :premises (t6508 t6520 t6541))
% 32.29/32.52 (step t6543 (cl (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)))) :rule or :premises (t6542))
% 32.29/32.52 (step t6544 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t6543))
% 32.29/32.52 (step t6545 (cl (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e23 tptp.e22)))) :rule and :premises (t459))
% 32.29/32.52 (step t6546 (cl (not (= (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))))) (not (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.52 (step t6547 (cl (= (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true) (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6548 (cl (not (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true)) (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule equiv1 :premises (t6547))
% 32.29/32.52 (step t6549 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))))) :rule all_simplify)
% 32.29/32.52 (step t6550 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule refl)
% 32.29/32.52 (step t6551 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.29/32.52 (step t6552 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t6550 t6551))
% 32.29/32.52 (step t6553 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true)) :rule all_simplify)
% 32.29/32.52 (step t6554 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) true)) :rule trans :premises (t6552 t6553))
% 32.29/32.52 (step t6555 (cl (= (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true)) :rule trans :premises (t6549 t6554))
% 32.29/32.52 (step t6556 (cl (= (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6548 t6555))
% 32.29/32.52 (step t6557 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule refl)
% 32.29/32.52 (step t6558 (cl (= (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))))) :rule cong :premises (t5632 t6077 t5566 t4 t6556 t5596 t6557))
% 32.29/32.52 (step t6559 (cl (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule and_neg)
% 32.29/32.52 (step t6560 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6561)
% 32.29/32.52 (assume t6561.a0 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.52 (assume t6561.a1 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.52 (assume t6561.a2 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.52 (assume t6561.a3 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6561.a4 (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))
% 32.29/32.52 (assume t6561.a5 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.52 (step t6561.t1 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6561.t2)
% 32.29/32.52 (assume t6561.t2.a0 (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))
% 32.29/32.52 (assume t6561.t2.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))
% 32.29/32.52 (assume t6561.t2.a2 (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))
% 32.29/32.52 (assume t6561.t2.a3 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.52 (assume t6561.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.52 (step t6561.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) false) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.52 (step t6561.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) false)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule equiv1 :premises (t6561.t2.t1))
% 32.29/32.52 (step t6561.t2.t3 (cl (= (tptp.op2 tptp.e24 tptp.e22) tptp.e24)) :rule symm :premises (t6561.t2.a1))
% 32.29/32.52 (step t6561.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule symm :premises (t6561.t2.t3))
% 32.29/32.52 (step t6561.t2.t5 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t6561.t2.a3))
% 32.29/32.52 (step t6561.t2.t6 (cl (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20)) :rule symm :premises (t6561.t2.a2))
% 32.29/32.52 (step t6561.t2.t7 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule symm :premises (t6561.t2.t6))
% 32.29/32.52 (step t6561.t2.t8 (cl (= (tptp.h1 tptp.e14) (tptp.op2 tptp.e20 tptp.e22))) :rule trans :premises (t6561.t2.t5 t6561.t2.t7))
% 32.29/32.52 (step t6561.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e22) (tptp.h1 tptp.e14))) :rule symm :premises (t6561.t2.t8))
% 32.29/32.52 (step t6561.t2.t10 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t6561.t2.a4))
% 32.29/32.52 (step t6561.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.h1 tptp.e14))) :rule trans :premises (t6561.t2.t10 t6561.t2.a3))
% 32.29/32.52 (step t6561.t2.t12 (cl (= (tptp.h1 tptp.e14) (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t6561.t2.t11))
% 32.29/32.52 (step t6561.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e23 tptp.e21))) :rule trans :premises (t6561.t2.t9 t6561.t2.t12))
% 32.29/32.52 (step t6561.t2.t14 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 tptp.e20 tptp.e22))) :rule symm :premises (t6561.t2.t13))
% 32.29/32.52 (step t6561.t2.t15 (cl (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule cong :premises (t6561.t2.t4 t6561.t2.t14))
% 32.29/32.52 (step t6561.t2.t16 (cl (= (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.52 (step t6561.t2.t17 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv2 :premises (t6561.t2.t16))
% 32.29/32.52 (step t6561.t2.t18 (cl (not (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule not_not)
% 32.29/32.52 (step t6561.t2.t19 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t6561.t2.t17 t6561.t2.t18))
% 32.29/32.52 (step t6561.t2.t20 (cl (= (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false)) :rule resolution :premises (t6561.t2.t19 t6561.t2.a0))
% 32.29/32.52 (step t6561.t2.t21 (cl (= (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) false)) :rule trans :premises (t6561.t2.t15 t6561.t2.t20))
% 32.29/32.52 (step t6561.t2.t22 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t6561.t2.t2 t6561.t2.t21))
% 32.29/32.52 (step t6561.t2 (cl (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule subproof :discharge (t6561.t2.a0 t6561.t2.a1 t6561.t2.a2 t6561.t2.a3 t6561.t2.a4))
% 32.29/32.52 (step t6561.t3 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6561.t4 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t6561.t5 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule and_pos)
% 32.29/32.52 (step t6561.t6 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t6561.t7 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.52 (step t6561.t8 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t6561.t2 t6561.t3 t6561.t4 t6561.t5 t6561.t6 t6561.t7))
% 32.29/32.52 (step t6561.t9 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule reordering :premises (t6561.t8))
% 32.29/32.52 (step t6561.t10 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule contraction :premises (t6561.t9))
% 32.29/32.52 (step t6561.t11 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t6561.t1 t6561.t10))
% 32.29/32.52 (step t6561.t12 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule implies_neg2)
% 32.29/32.52 (step t6561.t13 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t6561.t11 t6561.t12))
% 32.29/32.52 (step t6561.t14 (cl (=> (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule contraction :premises (t6561.t13))
% 32.29/32.52 (step t6561.t15 (cl (not (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule implies :premises (t6561.t14))
% 32.29/32.52 (step t6561.t16 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule and_neg)
% 32.29/32.52 (step t6561.t17 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6561.t18)
% 32.29/32.52 (assume t6561.t18.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6561.t18.a1 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.52 (step t6561.t18.t1 (cl (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24)) :rule symm :premises (t6561.t18.a1))
% 32.29/32.52 (step t6561.t18.t2 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule symm :premises (t6561.t18.t1))
% 32.29/32.52 (step t6561.t18.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6561.t18.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6561.t18.a0))
% 32.29/32.52 (step t6561.t18.t5 (cl (= (tptp.op2 tptp.e24 tptp.unit2) (tptp.op2 tptp.e24 tptp.e22))) :rule cong :premises (t6561.t18.t3 t6561.t18.t4))
% 32.29/32.52 (step t6561.t18.t6 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule trans :premises (t6561.t18.t2 t6561.t18.t5))
% 32.29/32.52 (step t6561.t18 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule subproof :discharge (t6561.t18.a0 t6561.t18.a1))
% 32.29/32.52 (step t6561.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6561.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6561.t21 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))))) :rule resolution :premises (t6561.t18 t6561.t19 t6561.t20))
% 32.29/32.52 (step t6561.t22 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule reordering :premises (t6561.t21))
% 32.29/32.52 (step t6561.t23 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule contraction :premises (t6561.t22))
% 32.29/32.52 (step t6561.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule resolution :premises (t6561.t17 t6561.t23))
% 32.29/32.52 (step t6561.t25 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t6561.t26 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule resolution :premises (t6561.t24 t6561.t25))
% 32.29/32.52 (step t6561.t27 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)))) :rule contraction :premises (t6561.t26))
% 32.29/32.52 (step t6561.t28 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule implies :premises (t6561.t27))
% 32.29/32.52 (step t6561.t29 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t6561.t30 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))) :rule resolution :premises (t6561.t29 t6561.a3 t6561.a2))
% 32.29/32.52 (step t6561.t31 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22))) :rule resolution :premises (t6561.t28 t6561.t30))
% 32.29/32.52 (step t6561.t32 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6561.t33)
% 32.29/32.52 (assume t6561.t33.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.52 (assume t6561.t33.a1 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.52 (step t6561.t33.t1 (cl (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20)) :rule symm :premises (t6561.t33.a1))
% 32.29/32.52 (step t6561.t33.t2 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule symm :premises (t6561.t33.t1))
% 32.29/32.52 (step t6561.t33.t3 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.52 (step t6561.t33.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6561.t33.a0))
% 32.29/32.52 (step t6561.t33.t5 (cl (= (tptp.op2 tptp.e20 tptp.unit2) (tptp.op2 tptp.e20 tptp.e22))) :rule cong :premises (t6561.t33.t3 t6561.t33.t4))
% 32.29/32.52 (step t6561.t33.t6 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule trans :premises (t6561.t33.t2 t6561.t33.t5))
% 32.29/32.52 (step t6561.t33 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule subproof :discharge (t6561.t33.a0 t6561.t33.a1))
% 32.29/32.52 (step t6561.t34 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6561.t35 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6561.t36 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))))) :rule resolution :premises (t6561.t33 t6561.t34 t6561.t35))
% 32.29/32.52 (step t6561.t37 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule reordering :premises (t6561.t36))
% 32.29/32.52 (step t6561.t38 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule contraction :premises (t6561.t37))
% 32.29/32.52 (step t6561.t39 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t6561.t32 t6561.t38))
% 32.29/32.52 (step t6561.t40 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule implies_neg2)
% 32.29/32.52 (step t6561.t41 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6561.t39 t6561.t40))
% 32.29/32.52 (step t6561.t42 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule contraction :premises (t6561.t41))
% 32.29/32.52 (step t6561.t43 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule implies :premises (t6561.t42))
% 32.29/32.52 (step t6561.t44 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule and_neg)
% 32.29/32.52 (step t6561.t45 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule resolution :premises (t6561.t44 t6561.a3 t6561.a1))
% 32.29/32.52 (step t6561.t46 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t6561.t43 t6561.t45))
% 32.29/32.52 (step t6561.t47 (cl (and (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.e22)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t6561.t16 t6561.a4 t6561.t31 t6561.t46 t6561.a5 t6561.a0))
% 32.29/32.52 (step t6561.t48 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t6561.t15 t6561.t47))
% 32.29/32.52 (step t6561 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule subproof :discharge (t6561.a0 t6561.a1 t6561.a2 t6561.a3 t6561.a4 t6561.a5))
% 32.29/32.52 (step t6562 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.52 (step t6563 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6564 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.52 (step t6565 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.52 (step t6566 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule and_pos)
% 32.29/32.52 (step t6567 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.52 (step t6568 (cl (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))))) :rule resolution :premises (t6561 t6562 t6563 t6564 t6565 t6566 t6567))
% 32.29/32.52 (step t6569 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule reordering :premises (t6568))
% 32.29/32.52 (step t6570 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule contraction :premises (t6569))
% 32.29/32.52 (step t6571 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t6560 t6570))
% 32.29/32.52 (step t6572 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule implies_neg2)
% 32.29/32.52 (step t6573 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t6571 t6572))
% 32.29/32.52 (step t6574 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule contraction :premises (t6573))
% 32.29/32.52 (step t6575 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule implies :premises (t6574))
% 32.29/32.52 (step t6576 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t6559 t6575))
% 32.29/32.52 (step t6577 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule or_neg)
% 32.29/32.52 (step t6578 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t6579 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))))) :rule or_neg)
% 32.29/32.52 (step t6580 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.52 (step t6581 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))))) :rule or_neg)
% 32.29/32.52 (step t6582 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e20 (tptp.h1 tptp.e14))))) :rule or_neg)
% 32.29/32.52 (step t6583 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (not (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule or_neg)
% 32.29/32.52 (step t6584 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t6576 t6577 t6578 t6579 t6580 t6581 t6582 t6583))
% 32.29/32.52 (step t6585 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule contraction :premises (t6584))
% 32.29/32.52 (step t6586 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t6546 t6558 t6585))
% 32.29/32.52 (step t6587 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)))) :rule or :premises (t6586))
% 32.29/32.52 (step t6588 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule reordering :premises (t6587))
% 32.29/32.52 (step t6589 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule resolution :premises (t6468 t6506 t4536 t6507 t6544 t6545 t6588))
% 32.29/32.52 (step t6590 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule contraction :premises (t6589))
% 32.29/32.52 (step t6591 (cl (or (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule and :premises (t2369))
% 32.29/32.52 (step t6592 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) :rule or :premises (t6591))
% 32.29/32.52 (step t6593 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) :rule resolution :premises (t6590 t6592))
% 32.29/32.52 (step t6594 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))) :rule contraction :premises (t6593))
% 32.29/32.52 (step t6595 (cl (not (= (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (or (= tptp.e20 tptp.e23) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))))) (not (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) (or (= tptp.e20 tptp.e23) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.52 (step t6596 (cl (= (= (= (not (not (= tptp.e20 tptp.e23))) (= tptp.e20 tptp.e23)) true) (= (not (not (= tptp.e20 tptp.e23))) (= tptp.e20 tptp.e23)))) :rule equiv_simplify)
% 32.29/32.52 (step t6597 (cl (not (= (= (not (not (= tptp.e20 tptp.e23))) (= tptp.e20 tptp.e23)) true)) (= (not (not (= tptp.e20 tptp.e23))) (= tptp.e20 tptp.e23))) :rule equiv1 :premises (t6596))
% 32.29/32.52 (step t6598 (cl (= (= (not (not (= tptp.e20 tptp.e23))) (= tptp.e20 tptp.e23)) (= (= tptp.e20 tptp.e23) (not (not (= tptp.e20 tptp.e23)))))) :rule all_simplify)
% 32.29/32.52 (step t6599 (cl (= (= tptp.e20 tptp.e23) (= tptp.e20 tptp.e23))) :rule refl)
% 32.29/32.52 (step t6600 (cl (= (not (not (= tptp.e20 tptp.e23))) (= tptp.e20 tptp.e23))) :rule all_simplify)
% 32.29/32.52 (step t6601 (cl (= (= (= tptp.e20 tptp.e23) (not (not (= tptp.e20 tptp.e23)))) (= (= tptp.e20 tptp.e23) (= tptp.e20 tptp.e23)))) :rule cong :premises (t6599 t6600))
% 32.29/32.52 (step t6602 (cl (= (= (= tptp.e20 tptp.e23) (= tptp.e20 tptp.e23)) true)) :rule all_simplify)
% 32.29/32.52 (step t6603 (cl (= (= (= tptp.e20 tptp.e23) (not (not (= tptp.e20 tptp.e23)))) true)) :rule trans :premises (t6601 t6602))
% 32.29/32.52 (step t6604 (cl (= (= (not (not (= tptp.e20 tptp.e23))) (= tptp.e20 tptp.e23)) true)) :rule trans :premises (t6598 t6603))
% 32.29/32.52 (step t6605 (cl (= (not (not (= tptp.e20 tptp.e23))) (= tptp.e20 tptp.e23))) :rule resolution :premises (t6597 t6604))
% 32.29/32.52 (step t6606 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule refl)
% 32.29/32.52 (step t6607 (cl (= (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (or (= tptp.e20 tptp.e23) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))))) :rule cong :premises (t6605 t222 t2928 t6606))
% 32.29/32.52 (step t6608 (cl (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule and_neg)
% 32.29/32.52 (step t6609 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6610)
% 32.29/32.52 (assume t6610.a0 (not (= tptp.e20 tptp.e23)))
% 32.29/32.52 (assume t6610.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t6610.a2 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (step t6610.t1 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6610.t2)
% 32.29/32.52 (assume t6610.t2.a0 (not (= tptp.e20 tptp.e23)))
% 32.29/32.52 (assume t6610.t2.a1 (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))
% 32.29/32.52 (step t6610.t2.t1 (cl (= (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) false) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.52 (step t6610.t2.t2 (cl (not (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) false)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule equiv1 :premises (t6610.t2.t1))
% 32.29/32.52 (step t6610.t2.t3 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.52 (step t6610.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) :rule symm :premises (t6610.t2.a1))
% 32.29/32.52 (step t6610.t2.t5 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule symm :premises (t6610.t2.t4))
% 32.29/32.52 (step t6610.t2.t6 (cl (= (tptp.op2 tptp.e24 tptp.e21) tptp.e23)) :rule symm :premises (t6610.t2.t5))
% 32.29/32.52 (step t6610.t2.t7 (cl (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) (= tptp.e20 tptp.e23))) :rule cong :premises (t6610.t2.t3 t6610.t2.t6))
% 32.29/32.52 (step t6610.t2.t8 (cl (= (= (= tptp.e20 tptp.e23) false) (not (= tptp.e20 tptp.e23)))) :rule equiv_simplify)
% 32.29/32.52 (step t6610.t2.t9 (cl (= (= tptp.e20 tptp.e23) false) (not (not (= tptp.e20 tptp.e23)))) :rule equiv2 :premises (t6610.t2.t8))
% 32.29/32.52 (step t6610.t2.t10 (cl (not (not (not (= tptp.e20 tptp.e23)))) (= tptp.e20 tptp.e23)) :rule not_not)
% 32.29/32.52 (step t6610.t2.t11 (cl (= (= tptp.e20 tptp.e23) false) (= tptp.e20 tptp.e23)) :rule resolution :premises (t6610.t2.t9 t6610.t2.t10))
% 32.29/32.52 (step t6610.t2.t12 (cl (= (= tptp.e20 tptp.e23) false)) :rule resolution :premises (t6610.t2.t11 t6610.t2.a0))
% 32.29/32.52 (step t6610.t2.t13 (cl (= (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)) false)) :rule trans :premises (t6610.t2.t7 t6610.t2.t12))
% 32.29/32.52 (step t6610.t2.t14 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t6610.t2.t2 t6610.t2.t13))
% 32.29/32.52 (step t6610.t2 (cl (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule subproof :discharge (t6610.t2.a0 t6610.t2.a1))
% 32.29/32.52 (step t6610.t3 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.52 (step t6610.t4 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule and_pos)
% 32.29/32.52 (step t6610.t5 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))))) :rule resolution :premises (t6610.t2 t6610.t3 t6610.t4))
% 32.29/32.52 (step t6610.t6 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule reordering :premises (t6610.t5))
% 32.29/32.52 (step t6610.t7 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule contraction :premises (t6610.t6))
% 32.29/32.52 (step t6610.t8 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t6610.t1 t6610.t7))
% 32.29/32.52 (step t6610.t9 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule implies_neg2)
% 32.29/32.52 (step t6610.t10 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule resolution :premises (t6610.t8 t6610.t9))
% 32.29/32.52 (step t6610.t11 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule contraction :premises (t6610.t10))
% 32.29/32.52 (step t6610.t12 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule implies :premises (t6610.t11))
% 32.29/32.52 (step t6610.t13 (cl (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule and_neg)
% 32.29/32.52 (step t6610.t14 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6610.t15)
% 32.29/32.52 (assume t6610.t15.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.52 (assume t6610.t15.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.52 (step t6610.t15.t1 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t6610.t15.a1))
% 32.29/32.52 (step t6610.t15.t2 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t6610.t15.t1))
% 32.29/32.52 (step t6610.t15.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.52 (step t6610.t15.t4 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t6610.t15.a0))
% 32.29/32.52 (step t6610.t15.t5 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t6610.t15.t3 t6610.t15.t4))
% 32.29/32.52 (step t6610.t15.t6 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule trans :premises (t6610.t15.t2 t6610.t15.t5))
% 32.29/32.52 (step t6610.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule subproof :discharge (t6610.t15.a0 t6610.t15.a1))
% 32.29/32.52 (step t6610.t16 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6610.t17 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6610.t18 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule resolution :premises (t6610.t15 t6610.t16 t6610.t17))
% 32.29/32.52 (step t6610.t19 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule reordering :premises (t6610.t18))
% 32.29/32.52 (step t6610.t20 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule contraction :premises (t6610.t19))
% 32.29/32.52 (step t6610.t21 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule resolution :premises (t6610.t14 t6610.t20))
% 32.29/32.52 (step t6610.t22 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule implies_neg2)
% 32.29/32.52 (step t6610.t23 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t6610.t21 t6610.t22))
% 32.29/32.52 (step t6610.t24 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule contraction :premises (t6610.t23))
% 32.29/32.52 (step t6610.t25 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule implies :premises (t6610.t24))
% 32.29/32.52 (step t6610.t26 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule and_neg)
% 32.29/32.52 (step t6610.t27 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule resolution :premises (t6610.t26 t6610.a1 t6610.a2))
% 32.29/32.52 (step t6610.t28 (cl (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21))) :rule resolution :premises (t6610.t25 t6610.t27))
% 32.29/32.52 (step t6610.t29 (cl (and (not (= tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t6610.t13 t6610.a0 t6610.t28))
% 32.29/32.52 (step t6610.t30 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t6610.t12 t6610.t29))
% 32.29/32.52 (step t6610 (cl (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule subproof :discharge (t6610.a0 t6610.a1 t6610.a2))
% 32.29/32.52 (step t6611 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (= tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.52 (step t6612 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.52 (step t6613 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.52 (step t6614 (cl (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule resolution :premises (t6610 t6611 t6612 t6613))
% 32.29/32.52 (step t6615 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule reordering :premises (t6614))
% 32.29/32.52 (step t6616 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule contraction :premises (t6615))
% 32.29/32.52 (step t6617 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t6609 t6616))
% 32.29/32.52 (step t6618 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule implies_neg2)
% 32.29/32.52 (step t6619 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule resolution :premises (t6617 t6618))
% 32.29/32.52 (step t6620 (cl (=> (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule contraction :premises (t6619))
% 32.29/32.52 (step t6621 (cl (not (and (not (= tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule implies :premises (t6620))
% 32.29/32.52 (step t6622 (cl (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule resolution :premises (t6608 t6621))
% 32.29/32.52 (step t6623 (cl (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (not (not (not (= tptp.e20 tptp.e23))))) :rule or_neg)
% 32.29/32.52 (step t6624 (cl (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.52 (step t6625 (cl (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (not (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))))) :rule or_neg)
% 32.29/32.52 (step t6626 (cl (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule or_neg)
% 32.29/32.52 (step t6627 (cl (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule resolution :premises (t6622 t6623 t6624 t6625 t6626))
% 32.29/32.52 (step t6628 (cl (or (not (not (= tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule contraction :premises (t6627))
% 32.29/32.52 (step t6629 (cl (or (= tptp.e20 tptp.e23) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))))) :rule resolution :premises (t6595 t6607 t6628))
% 32.29/32.52 (step t6630 (cl (= tptp.e20 tptp.e23) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21)))) :rule or :premises (t6629))
% 32.29/32.52 (step t6631 (cl (= tptp.e20 tptp.e23) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))) :rule reordering :premises (t6630))
% 32.29/32.52 (step t6632 (cl (not (= tptp.e20 tptp.e23))) :rule and :premises (a9))
% 32.29/32.52 (step t6633 (cl (not (= (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (or (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))))) (not (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) (or (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.52 (step t6634 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule refl)
% 32.29/32.52 (step t6635 (cl (= (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (or (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))))) :rule cong :premises (t5530 t5738 t6634))
% 32.29/32.52 (step t6636 (cl (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule and_neg)
% 32.29/32.52 (step t6637 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6638)
% 32.29/32.52 (assume t6638.a0 (not (= tptp.e20 tptp.e21)))
% 32.29/32.52 (assume t6638.a1 (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))
% 32.29/32.52 (step t6638.t1 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule implies_neg1)
% 32.29/32.52 (anchor :step t6638.t2)
% 32.29/32.52 (assume t6638.t2.a0 (not (= tptp.e20 tptp.e21)))
% 32.29/32.52 (assume t6638.t2.a1 (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))
% 32.29/32.52 (step t6638.t2.t1 (cl (= (= (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) false) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.52 (step t6638.t2.t2 (cl (not (= (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) false)) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule equiv1 :premises (t6638.t2.t1))
% 32.29/32.52 (step t6638.t2.t3 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.52 (step t6638.t2.t4 (cl (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21)) :rule symm :premises (t6638.t2.a1))
% 32.29/32.52 (step t6638.t2.t5 (cl (= (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) (= tptp.e20 tptp.e21))) :rule cong :premises (t6638.t2.t3 t6638.t2.t4))
% 32.29/32.52 (step t6638.t2.t6 (cl (= (= (= tptp.e20 tptp.e21) false) (not (= tptp.e20 tptp.e21)))) :rule equiv_simplify)
% 32.29/32.52 (step t6638.t2.t7 (cl (= (= tptp.e20 tptp.e21) false) (not (not (= tptp.e20 tptp.e21)))) :rule equiv2 :premises (t6638.t2.t6))
% 32.29/32.52 (step t6638.t2.t8 (cl (not (not (not (= tptp.e20 tptp.e21)))) (= tptp.e20 tptp.e21)) :rule not_not)
% 32.29/32.52 (step t6638.t2.t9 (cl (= (= tptp.e20 tptp.e21) false) (= tptp.e20 tptp.e21)) :rule resolution :premises (t6638.t2.t7 t6638.t2.t8))
% 32.29/32.52 (step t6638.t2.t10 (cl (= (= tptp.e20 tptp.e21) false)) :rule resolution :premises (t6638.t2.t9 t6638.t2.a0))
% 32.29/32.52 (step t6638.t2.t11 (cl (= (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)) false)) :rule trans :premises (t6638.t2.t5 t6638.t2.t10))
% 32.29/32.52 (step t6638.t2.t12 (cl (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6638.t2.t2 t6638.t2.t11))
% 32.29/32.52 (step t6638.t2 (cl (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule subproof :discharge (t6638.t2.a0 t6638.t2.a1))
% 32.29/32.52 (step t6638.t3 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.52 (step t6638.t4 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule and_pos)
% 32.29/32.52 (step t6638.t5 (cl (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))))) :rule resolution :premises (t6638.t2 t6638.t3 t6638.t4))
% 32.29/32.52 (step t6638.t6 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule reordering :premises (t6638.t5))
% 32.29/32.52 (step t6638.t7 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule contraction :premises (t6638.t6))
% 32.29/32.52 (step t6638.t8 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6638.t1 t6638.t7))
% 32.29/32.52 (step t6638.t9 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule implies_neg2)
% 32.29/32.52 (step t6638.t10 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule resolution :premises (t6638.t8 t6638.t9))
% 32.29/32.52 (step t6638.t11 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule contraction :premises (t6638.t10))
% 32.29/32.52 (step t6638.t12 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule implies :premises (t6638.t11))
% 32.29/32.52 (step t6638.t13 (cl (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule and_neg)
% 32.29/32.53 (step t6638.t14 (cl (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6638.t13 t6638.a0 t6638.a1))
% 32.29/32.53 (step t6638.t15 (cl (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6638.t12 t6638.t14))
% 32.29/32.53 (step t6638 (cl (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule subproof :discharge (t6638.a0 t6638.a1))
% 32.29/32.53 (step t6639 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6640 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6641 (cl (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))))) :rule resolution :premises (t6638 t6639 t6640))
% 32.29/32.53 (step t6642 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule reordering :premises (t6641))
% 32.29/32.53 (step t6643 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule contraction :premises (t6642))
% 32.29/32.53 (step t6644 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6637 t6643))
% 32.29/32.53 (step t6645 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule implies_neg2)
% 32.29/32.53 (step t6646 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule resolution :premises (t6644 t6645))
% 32.29/32.53 (step t6647 (cl (=> (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule contraction :premises (t6646))
% 32.29/32.53 (step t6648 (cl (not (and (not (= tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule implies :premises (t6647))
% 32.29/32.53 (step t6649 (cl (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6636 t6648))
% 32.29/32.53 (step t6650 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (not (not (not (= tptp.e20 tptp.e21))))) :rule or_neg)
% 32.29/32.53 (step t6651 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))))) :rule or_neg)
% 32.29/32.53 (step t6652 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule or_neg)
% 32.29/32.53 (step t6653 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule resolution :premises (t6649 t6650 t6651 t6652))
% 32.29/32.53 (step t6654 (cl (or (not (not (= tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule contraction :premises (t6653))
% 32.29/32.53 (step t6655 (cl (or (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))))) :rule resolution :premises (t6633 t6635 t6654))
% 32.29/32.53 (step t6656 (cl (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21)))) :rule or :premises (t6655))
% 32.29/32.53 (step t6657 (cl (= tptp.e20 tptp.e21) (not (= tptp.e20 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule reordering :premises (t6656))
% 32.29/32.53 (step t6658 (cl (not (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))))) (not (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.53 (step t6659 (cl (= (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) true) (= (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.53 (step t6660 (cl (not (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) true)) (= (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) :rule equiv1 :premises (t6659))
% 32.29/32.53 (step t6661 (cl (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))))) :rule all_simplify)
% 32.29/32.53 (step t6662 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) :rule refl)
% 32.29/32.53 (step t6663 (cl (= (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) :rule all_simplify)
% 32.29/32.53 (step t6664 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) :rule cong :premises (t6662 t6663))
% 32.29/32.53 (step t6665 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) true)) :rule all_simplify)
% 32.29/32.53 (step t6666 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) true)) :rule trans :premises (t6664 t6665))
% 32.29/32.53 (step t6667 (cl (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) true)) :rule trans :premises (t6661 t6666))
% 32.29/32.53 (step t6668 (cl (= (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6660 t6667))
% 32.29/32.53 (step t6669 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule refl)
% 32.29/32.53 (step t6670 (cl (= (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))))) :rule cong :premises (t5595 t222 t6668 t6669))
% 32.29/32.53 (step t6671 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) :rule and_neg)
% 32.29/32.53 (step t6672 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6673)
% 32.29/32.53 (assume t6673.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.53 (assume t6673.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.53 (assume t6673.a2 (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))
% 32.29/32.53 (step t6673.t1 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6673.t2)
% 32.29/32.53 (assume t6673.t2.a0 (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))
% 32.29/32.53 (assume t6673.t2.a1 (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))
% 32.29/32.53 (step t6673.t2.t1 (cl (= (= (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) false) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.53 (step t6673.t2.t2 (cl (not (= (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) false)) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule equiv1 :premises (t6673.t2.t1))
% 32.29/32.53 (step t6673.t2.t3 (cl (= (tptp.op2 tptp.e21 tptp.e24) tptp.e20)) :rule symm :premises (t6673.t2.a1))
% 32.29/32.53 (step t6673.t2.t4 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule symm :premises (t6673.t2.t3))
% 32.29/32.53 (step t6673.t2.t5 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 tptp.e21 tptp.e21))) :rule refl)
% 32.29/32.53 (step t6673.t2.t6 (cl (= (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) :rule cong :premises (t6673.t2.t4 t6673.t2.t5))
% 32.29/32.53 (step t6673.t2.t7 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) false) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.53 (step t6673.t2.t8 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) false) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) :rule equiv2 :premises (t6673.t2.t7))
% 32.29/32.53 (step t6673.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) :rule not_not)
% 32.29/32.53 (step t6673.t2.t10 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) false) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) :rule resolution :premises (t6673.t2.t8 t6673.t2.t9))
% 32.29/32.53 (step t6673.t2.t11 (cl (= (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) false)) :rule resolution :premises (t6673.t2.t10 t6673.t2.a0))
% 32.29/32.53 (step t6673.t2.t12 (cl (= (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)) false)) :rule trans :premises (t6673.t2.t6 t6673.t2.t11))
% 32.29/32.53 (step t6673.t2.t13 (cl (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6673.t2.t2 t6673.t2.t12))
% 32.29/32.53 (step t6673.t2 (cl (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule subproof :discharge (t6673.t2.a0 t6673.t2.a1))
% 32.29/32.53 (step t6673.t3 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) :rule and_pos)
% 32.29/32.53 (step t6673.t4 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t6673.t5 (cl (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))) (not (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))))) :rule resolution :premises (t6673.t2 t6673.t3 t6673.t4))
% 32.29/32.53 (step t6673.t6 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule reordering :premises (t6673.t5))
% 32.29/32.53 (step t6673.t7 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule contraction :premises (t6673.t6))
% 32.29/32.53 (step t6673.t8 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6673.t1 t6673.t7))
% 32.29/32.53 (step t6673.t9 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule implies_neg2)
% 32.29/32.53 (step t6673.t10 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (=> (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t6673.t8 t6673.t9))
% 32.29/32.53 (step t6673.t11 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule contraction :premises (t6673.t10))
% 32.29/32.53 (step t6673.t12 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies :premises (t6673.t11))
% 32.29/32.53 (step t6673.t13 (cl (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule and_neg)
% 32.29/32.53 (step t6673.t14 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6673.t15)
% 32.29/32.53 (assume t6673.t15.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.53 (assume t6673.t15.a1 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.53 (step t6673.t15.t1 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t6673.t15.a1))
% 32.29/32.53 (step t6673.t15.t2 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t6673.t15.t1))
% 32.29/32.53 (step t6673.t15.t3 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t6673.t15.a0))
% 32.29/32.53 (step t6673.t15.t4 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.53 (step t6673.t15.t5 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t6673.t15.t3 t6673.t15.t4))
% 32.29/32.53 (step t6673.t15.t6 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule trans :premises (t6673.t15.t2 t6673.t15.t5))
% 32.29/32.53 (step t6673.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule subproof :discharge (t6673.t15.a0 t6673.t15.a1))
% 32.29/32.53 (step t6673.t16 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t6673.t17 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t6673.t18 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule resolution :premises (t6673.t15 t6673.t16 t6673.t17))
% 32.29/32.53 (step t6673.t19 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule reordering :premises (t6673.t18))
% 32.29/32.53 (step t6673.t20 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule contraction :premises (t6673.t19))
% 32.29/32.53 (step t6673.t21 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t6673.t14 t6673.t20))
% 32.29/32.53 (step t6673.t22 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule implies_neg2)
% 32.29/32.53 (step t6673.t23 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6673.t21 t6673.t22))
% 32.29/32.53 (step t6673.t24 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule contraction :premises (t6673.t23))
% 32.29/32.53 (step t6673.t25 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule implies :premises (t6673.t24))
% 32.29/32.53 (step t6673.t26 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule and_neg)
% 32.29/32.53 (step t6673.t27 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule resolution :premises (t6673.t26 t6673.a1 t6673.a0))
% 32.29/32.53 (step t6673.t28 (cl (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24))) :rule resolution :premises (t6673.t25 t6673.t27))
% 32.29/32.53 (step t6673.t29 (cl (and (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e21 tptp.e24)))) :rule resolution :premises (t6673.t13 t6673.a2 t6673.t28))
% 32.29/32.53 (step t6673.t30 (cl (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6673.t12 t6673.t29))
% 32.29/32.53 (step t6673 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule subproof :discharge (t6673.a0 t6673.a1 t6673.a2))
% 32.29/32.53 (step t6674 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t6675 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t6676 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) :rule and_pos)
% 32.29/32.53 (step t6677 (cl (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))))) :rule resolution :premises (t6673 t6674 t6675 t6676))
% 32.29/32.53 (step t6678 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule reordering :premises (t6677))
% 32.29/32.53 (step t6679 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule contraction :premises (t6678))
% 32.29/32.53 (step t6680 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6672 t6679))
% 32.29/32.53 (step t6681 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule implies_neg2)
% 32.29/32.53 (step t6682 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t6680 t6681))
% 32.29/32.53 (step t6683 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule contraction :premises (t6682))
% 32.29/32.53 (step t6684 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21))))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule implies :premises (t6683))
% 32.29/32.53 (step t6685 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule resolution :premises (t6671 t6684))
% 32.29/32.53 (step t6686 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))))) :rule or_neg)
% 32.29/32.53 (step t6687 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))))) :rule or_neg)
% 32.29/32.53 (step t6688 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))))) :rule or_neg)
% 32.29/32.53 (step t6689 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule or_neg)
% 32.29/32.53 (step t6690 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t6685 t6686 t6687 t6688 t6689))
% 32.29/32.53 (step t6691 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule contraction :premises (t6690))
% 32.29/32.53 (step t6692 (cl (or (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))))) :rule resolution :premises (t6658 t6670 t6691))
% 32.29/32.53 (step t6693 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21)))) :rule or :premises (t6692))
% 32.29/32.53 (step t6694 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule reordering :premises (t6693))
% 32.29/32.53 (step t6695 (cl (not (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 tptp.e21 tptp.e21)))) :rule and :premises (t459))
% 32.29/32.53 (step t6696 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))) :rule resolution :premises (t6594 t6631 t6632 t6657 t6694 t6695))
% 32.29/32.53 (step t6697 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule contraction :premises (t6696))
% 32.29/32.53 (step t6698 (cl (not (= (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))))) (not (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.53 (step t6699 (cl (= (= (= (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) true) (= (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.53 (step t6700 (cl (not (= (= (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) true)) (= (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) :rule equiv1 :premises (t6699))
% 32.29/32.53 (step t6701 (cl (= (= (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))))) :rule all_simplify)
% 32.29/32.53 (step t6702 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) :rule refl)
% 32.29/32.53 (step t6703 (cl (= (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.29/32.53 (step t6704 (cl (= (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t6702 t6703))
% 32.29/32.53 (step t6705 (cl (= (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) true)) :rule all_simplify)
% 32.29/32.53 (step t6706 (cl (= (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) true)) :rule trans :premises (t6704 t6705))
% 32.29/32.53 (step t6707 (cl (= (= (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) true)) :rule trans :premises (t6701 t6706))
% 32.29/32.53 (step t6708 (cl (= (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6700 t6707))
% 32.29/32.53 (step t6709 (cl (= (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule refl)
% 32.29/32.53 (step t6710 (cl (= (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))))) :rule cong :premises (t6077 t4 t6708 t6709))
% 32.29/32.53 (step t6711 (cl (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) :rule and_neg)
% 32.29/32.53 (step t6712 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6713)
% 32.29/32.53 (assume t6713.a0 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.53 (assume t6713.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.53 (assume t6713.a2 (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))
% 32.29/32.53 (step t6713.t1 (cl (=> (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6713.t2)
% 32.29/32.53 (assume t6713.t2.a0 (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))
% 32.29/32.53 (assume t6713.t2.a1 (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))
% 32.29/32.53 (step t6713.t2.t1 (cl (= (= (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) false) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.53 (step t6713.t2.t2 (cl (not (= (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) false)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule equiv1 :premises (t6713.t2.t1))
% 32.29/32.53 (step t6713.t2.t3 (cl (= (tptp.op2 tptp.e20 tptp.e22) tptp.e20)) :rule symm :premises (t6713.t2.a1))
% 32.29/32.53 (step t6713.t2.t4 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule symm :premises (t6713.t2.t3))
% 32.29/32.53 (step t6713.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule refl)
% 32.29/32.53 (step t6713.t2.t6 (cl (= (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) :rule cong :premises (t6713.t2.t4 t6713.t2.t5))
% 32.29/32.53 (step t6713.t2.t7 (cl (= (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) false) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.53 (step t6713.t2.t8 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) false) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv2 :premises (t6713.t2.t7))
% 32.29/32.53 (step t6713.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) :rule not_not)
% 32.29/32.53 (step t6713.t2.t10 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) false) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) :rule resolution :premises (t6713.t2.t8 t6713.t2.t9))
% 32.29/32.53 (step t6713.t2.t11 (cl (= (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) false)) :rule resolution :premises (t6713.t2.t10 t6713.t2.a0))
% 32.29/32.53 (step t6713.t2.t12 (cl (= (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)) false)) :rule trans :premises (t6713.t2.t6 t6713.t2.t11))
% 32.29/32.53 (step t6713.t2.t13 (cl (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6713.t2.t2 t6713.t2.t12))
% 32.29/32.53 (step t6713.t2 (cl (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule subproof :discharge (t6713.t2.a0 t6713.t2.a1))
% 32.29/32.53 (step t6713.t3 (cl (not (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) :rule and_pos)
% 32.29/32.53 (step t6713.t4 (cl (not (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule and_pos)
% 32.29/32.53 (step t6713.t5 (cl (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))) (not (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))))) :rule resolution :premises (t6713.t2 t6713.t3 t6713.t4))
% 32.29/32.53 (step t6713.t6 (cl (not (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule reordering :premises (t6713.t5))
% 32.29/32.53 (step t6713.t7 (cl (not (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule contraction :premises (t6713.t6))
% 32.29/32.53 (step t6713.t8 (cl (=> (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6713.t1 t6713.t7))
% 32.29/32.53 (step t6713.t9 (cl (=> (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg2)
% 32.29/32.53 (step t6713.t10 (cl (=> (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (=> (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t6713.t8 t6713.t9))
% 32.29/32.53 (step t6713.t11 (cl (=> (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t6713.t10))
% 32.29/32.53 (step t6713.t12 (cl (not (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule implies :premises (t6713.t11))
% 32.29/32.53 (step t6713.t13 (cl (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule and_neg)
% 32.29/32.53 (step t6713.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6713.t15)
% 32.29/32.53 (assume t6713.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.53 (assume t6713.t15.a1 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.53 (step t6713.t15.t1 (cl (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20)) :rule symm :premises (t6713.t15.a1))
% 32.29/32.53 (step t6713.t15.t2 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule symm :premises (t6713.t15.t1))
% 32.29/32.53 (step t6713.t15.t3 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.53 (step t6713.t15.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6713.t15.a0))
% 32.29/32.53 (step t6713.t15.t5 (cl (= (tptp.op2 tptp.e20 tptp.unit2) (tptp.op2 tptp.e20 tptp.e22))) :rule cong :premises (t6713.t15.t3 t6713.t15.t4))
% 32.29/32.53 (step t6713.t15.t6 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule trans :premises (t6713.t15.t2 t6713.t15.t5))
% 32.29/32.53 (step t6713.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule subproof :discharge (t6713.t15.a0 t6713.t15.a1))
% 32.29/32.53 (step t6713.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.53 (step t6713.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.53 (step t6713.t18 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))))) :rule resolution :premises (t6713.t15 t6713.t16 t6713.t17))
% 32.29/32.53 (step t6713.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule reordering :premises (t6713.t18))
% 32.29/32.53 (step t6713.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule contraction :premises (t6713.t19))
% 32.29/32.53 (step t6713.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t6713.t14 t6713.t20))
% 32.29/32.53 (step t6713.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule implies_neg2)
% 32.29/32.53 (step t6713.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6713.t21 t6713.t22))
% 32.29/32.53 (step t6713.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule contraction :premises (t6713.t23))
% 32.29/32.53 (step t6713.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule implies :premises (t6713.t24))
% 32.29/32.53 (step t6713.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule and_neg)
% 32.29/32.53 (step t6713.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule resolution :premises (t6713.t26 t6713.a1 t6713.a0))
% 32.29/32.53 (step t6713.t28 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t6713.t25 t6713.t27))
% 32.29/32.53 (step t6713.t29 (cl (and (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6713.t13 t6713.a2 t6713.t28))
% 32.29/32.53 (step t6713.t30 (cl (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6713.t12 t6713.t29))
% 32.29/32.53 (step t6713 (cl (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule subproof :discharge (t6713.a0 t6713.a1 t6713.a2))
% 32.29/32.53 (step t6714 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.53 (step t6715 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.53 (step t6716 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) :rule and_pos)
% 32.29/32.53 (step t6717 (cl (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))) (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))))) :rule resolution :premises (t6713 t6714 t6715 t6716))
% 32.29/32.53 (step t6718 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule reordering :premises (t6717))
% 32.29/32.53 (step t6719 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule contraction :premises (t6718))
% 32.29/32.53 (step t6720 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6712 t6719))
% 32.29/32.53 (step t6721 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg2)
% 32.29/32.53 (step t6722 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (=> (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t6720 t6721))
% 32.29/32.53 (step t6723 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t6722))
% 32.29/32.53 (step t6724 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule implies :premises (t6723))
% 32.29/32.53 (step t6725 (cl (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6711 t6724))
% 32.29/32.53 (step t6726 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))))) :rule or_neg)
% 32.29/32.53 (step t6727 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.53 (step t6728 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))))) :rule or_neg)
% 32.29/32.53 (step t6729 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule or_neg)
% 32.29/32.53 (step t6730 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t6725 t6726 t6727 t6728 t6729))
% 32.29/32.53 (step t6731 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t6730))
% 32.29/32.53 (step t6732 (cl (or (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t6698 t6710 t6731))
% 32.29/32.53 (step t6733 (cl (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21)))) :rule or :premises (t6732))
% 32.29/32.53 (step t6734 (cl (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t6733))
% 32.29/32.53 (step t6735 (cl (not (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e21)))) :rule and :premises (t459))
% 32.29/32.53 (step t6736 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv_pos2)
% 32.29/32.53 (step t6737 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))))) :rule refl)
% 32.29/32.53 (step t6738 (cl (= (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true) (= (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.53 (step t6739 (cl (not (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true)) (= (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule equiv1 :premises (t6738))
% 32.29/32.53 (step t6740 (cl (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))))) :rule all_simplify)
% 32.29/32.53 (step t6741 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule refl)
% 32.29/32.53 (step t6742 (cl (= (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule all_simplify)
% 32.29/32.53 (step t6743 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule cong :premises (t6741 t6742))
% 32.29/32.53 (step t6744 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true)) :rule all_simplify)
% 32.29/32.53 (step t6745 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) true)) :rule trans :premises (t6743 t6744))
% 32.29/32.53 (step t6746 (cl (= (= (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) true)) :rule trans :premises (t6740 t6745))
% 32.29/32.53 (step t6747 (cl (= (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6739 t6746))
% 32.29/32.53 (step t6748 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule refl)
% 32.29/32.53 (step t6749 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))))) :rule cong :premises (t6737 t4 t6747 t6748))
% 32.29/32.53 (step t6750 (cl (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule and_neg)
% 32.29/32.53 (step t6751 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6752)
% 32.29/32.53 (assume t6752.a0 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.29/32.53 (assume t6752.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.53 (assume t6752.a2 (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))
% 32.29/32.53 (step t6752.t1 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6752.t2)
% 32.29/32.53 (assume t6752.t2.a0 (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))
% 32.29/32.53 (assume t6752.t2.a1 (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))
% 32.29/32.53 (step t6752.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) false) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.53 (step t6752.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) false)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule equiv1 :premises (t6752.t2.t1))
% 32.29/32.53 (step t6752.t2.t3 (cl (= (tptp.op2 tptp.e21 tptp.e22) tptp.e21)) :rule symm :premises (t6752.t2.a1))
% 32.29/32.53 (step t6752.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) :rule symm :premises (t6752.t2.t3))
% 32.29/32.53 (step t6752.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule refl)
% 32.29/32.53 (step t6752.t2.t6 (cl (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule cong :premises (t6752.t2.t4 t6752.t2.t5))
% 32.29/32.53 (step t6752.t2.t7 (cl (= (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv_simplify)
% 32.29/32.53 (step t6752.t2.t8 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) :rule equiv2 :premises (t6752.t2.t7))
% 32.29/32.53 (step t6752.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule not_not)
% 32.29/32.53 (step t6752.t2.t10 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) :rule resolution :premises (t6752.t2.t8 t6752.t2.t9))
% 32.29/32.53 (step t6752.t2.t11 (cl (= (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) false)) :rule resolution :premises (t6752.t2.t10 t6752.t2.a0))
% 32.29/32.53 (step t6752.t2.t12 (cl (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)) false)) :rule trans :premises (t6752.t2.t6 t6752.t2.t11))
% 32.29/32.53 (step t6752.t2.t13 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6752.t2.t2 t6752.t2.t12))
% 32.29/32.53 (step t6752.t2 (cl (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule subproof :discharge (t6752.t2.a0 t6752.t2.a1))
% 32.29/32.53 (step t6752.t3 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule and_pos)
% 32.29/32.53 (step t6752.t4 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) :rule and_pos)
% 32.29/32.53 (step t6752.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))) (not (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))))) :rule resolution :premises (t6752.t2 t6752.t3 t6752.t4))
% 32.29/32.53 (step t6752.t6 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) (not (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule reordering :premises (t6752.t5))
% 32.29/32.53 (step t6752.t7 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule contraction :premises (t6752.t6))
% 32.29/32.53 (step t6752.t8 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6752.t1 t6752.t7))
% 32.29/32.53 (step t6752.t9 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule implies_neg2)
% 32.29/32.53 (step t6752.t10 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (=> (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule resolution :premises (t6752.t8 t6752.t9))
% 32.29/32.53 (step t6752.t11 (cl (=> (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule contraction :premises (t6752.t10))
% 32.29/32.53 (step t6752.t12 (cl (not (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule implies :premises (t6752.t11))
% 32.29/32.53 (step t6752.t13 (cl (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) :rule and_neg)
% 32.29/32.53 (step t6752.t14 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6752.t15)
% 32.29/32.53 (assume t6752.t15.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.53 (assume t6752.t15.a1 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.29/32.53 (step t6752.t15.t1 (cl (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21)) :rule symm :premises (t6752.t15.a1))
% 32.29/32.53 (step t6752.t15.t2 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule symm :premises (t6752.t15.t1))
% 32.29/32.53 (step t6752.t15.t3 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.53 (step t6752.t15.t4 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6752.t15.a0))
% 32.29/32.53 (step t6752.t15.t5 (cl (= (tptp.op2 tptp.e21 tptp.unit2) (tptp.op2 tptp.e21 tptp.e22))) :rule cong :premises (t6752.t15.t3 t6752.t15.t4))
% 32.29/32.53 (step t6752.t15.t6 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) :rule trans :premises (t6752.t15.t2 t6752.t15.t5))
% 32.29/32.53 (step t6752.t15 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) :rule subproof :discharge (t6752.t15.a0 t6752.t15.a1))
% 32.29/32.53 (step t6752.t16 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.53 (step t6752.t17 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and_pos)
% 32.29/32.53 (step t6752.t18 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))))) :rule resolution :premises (t6752.t15 t6752.t16 t6752.t17))
% 32.29/32.53 (step t6752.t19 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) :rule reordering :premises (t6752.t18))
% 32.29/32.53 (step t6752.t20 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) :rule contraction :premises (t6752.t19))
% 32.29/32.53 (step t6752.t21 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) :rule resolution :premises (t6752.t14 t6752.t20))
% 32.29/32.53 (step t6752.t22 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) :rule implies_neg2)
% 32.29/32.53 (step t6752.t23 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t6752.t21 t6752.t22))
% 32.29/32.53 (step t6752.t24 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) :rule contraction :premises (t6752.t23))
% 32.29/32.53 (step t6752.t25 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) :rule implies :premises (t6752.t24))
% 32.29/32.53 (step t6752.t26 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) :rule and_neg)
% 32.29/32.53 (step t6752.t27 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))) :rule resolution :premises (t6752.t26 t6752.a1 t6752.a0))
% 32.29/32.53 (step t6752.t28 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22))) :rule resolution :premises (t6752.t25 t6752.t27))
% 32.29/32.53 (step t6752.t29 (cl (and (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e22)))) :rule resolution :premises (t6752.t13 t6752.a2 t6752.t28))
% 32.29/32.53 (step t6752.t30 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6752.t12 t6752.t29))
% 32.29/32.53 (step t6752 (cl (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule subproof :discharge (t6752.a0 t6752.a1 t6752.a2))
% 32.29/32.53 (step t6753 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and_pos)
% 32.29/32.53 (step t6754 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.53 (step t6755 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule and_pos)
% 32.29/32.53 (step t6756 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))) (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))))) :rule resolution :premises (t6752 t6753 t6754 t6755))
% 32.29/32.53 (step t6757 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule reordering :premises (t6756))
% 32.29/32.53 (step t6758 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule contraction :premises (t6757))
% 32.29/32.53 (step t6759 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6751 t6758))
% 32.29/32.53 (step t6760 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule implies_neg2)
% 32.29/32.53 (step t6761 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule resolution :premises (t6759 t6760))
% 32.29/32.53 (step t6762 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule contraction :premises (t6761))
% 32.29/32.53 (step t6763 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule implies :premises (t6762))
% 32.29/32.53 (step t6764 (cl (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule resolution :premises (t6750 t6763))
% 32.29/32.53 (step t6765 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (not (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))))) :rule or_neg)
% 32.29/32.53 (step t6766 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (not (not (= tptp.e22 tptp.unit2)))) :rule or_neg)
% 32.29/32.53 (step t6767 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (not (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))))) :rule or_neg)
% 32.29/32.53 (step t6768 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule or_neg)
% 32.29/32.53 (step t6769 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule resolution :premises (t6764 t6765 t6766 t6767 t6768))
% 32.29/32.53 (step t6770 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule contraction :premises (t6769))
% 32.29/32.53 (step t6771 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))))) :rule resolution :premises (t6736 t6749 t6770))
% 32.29/32.53 (step t6772 (cl (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22)))) :rule or :premises (t6771))
% 32.29/32.53 (step t6773 (cl (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e22))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t6772))
% 32.29/32.53 (step t6774 (cl (not (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)))) :rule and :premises (t459))
% 32.29/32.53 (step t6775 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 tptp.unit2))) :rule resolution :premises (t6697 t6734 t6735 t6773 t4680 t6774))
% 32.29/32.53 (step t6776 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule contraction :premises (t6775))
% 32.29/32.53 (step t6777 (cl (not (= (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))))) (not (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_pos2)
% 32.29/32.53 (step t6778 (cl (= (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true) (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.53 (step t6779 (cl (not (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true)) (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule equiv1 :premises (t6778))
% 32.29/32.53 (step t6780 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))))) :rule all_simplify)
% 32.29/32.53 (step t6781 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule refl)
% 32.29/32.53 (step t6782 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule all_simplify)
% 32.29/32.53 (step t6783 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule cong :premises (t6781 t6782))
% 32.29/32.53 (step t6784 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true)) :rule all_simplify)
% 32.29/32.53 (step t6785 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) true)) :rule trans :premises (t6783 t6784))
% 32.29/32.53 (step t6786 (cl (= (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) true)) :rule trans :premises (t6780 t6785))
% 32.29/32.53 (step t6787 (cl (= (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6779 t6786))
% 32.29/32.53 (step t6788 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule refl)
% 32.29/32.53 (step t6789 (cl (= (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))))) :rule cong :premises (t5738 t6787 t6788))
% 32.29/32.53 (step t6790 (cl (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule and_neg)
% 32.29/32.53 (step t6791 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6792)
% 32.29/32.53 (assume t6792.a0 (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))
% 32.29/32.53 (assume t6792.a1 (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))
% 32.29/32.53 (step t6792.t1 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6792.t2)
% 32.29/32.53 (assume t6792.t2.a0 (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))
% 32.29/32.53 (assume t6792.t2.a1 (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))
% 32.29/32.53 (step t6792.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) false) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.53 (step t6792.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) false)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule equiv1 :premises (t6792.t2.t1))
% 32.29/32.53 (step t6792.t2.t3 (cl (= (tptp.op2 tptp.e22 tptp.e21) tptp.e21)) :rule symm :premises (t6792.t2.a1))
% 32.29/32.53 (step t6792.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule symm :premises (t6792.t2.t3))
% 32.29/32.53 (step t6792.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule refl)
% 32.29/32.53 (step t6792.t2.t6 (cl (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule cong :premises (t6792.t2.t4 t6792.t2.t5))
% 32.29/32.53 (step t6792.t2.t7 (cl (= (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv_simplify)
% 32.29/32.53 (step t6792.t2.t8 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) :rule equiv2 :premises (t6792.t2.t7))
% 32.29/32.53 (step t6792.t2.t9 (cl (not (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule not_not)
% 32.29/32.53 (step t6792.t2.t10 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) :rule resolution :premises (t6792.t2.t8 t6792.t2.t9))
% 32.29/32.53 (step t6792.t2.t11 (cl (= (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) false)) :rule resolution :premises (t6792.t2.t10 t6792.t2.a0))
% 32.29/32.53 (step t6792.t2.t12 (cl (= (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)) false)) :rule trans :premises (t6792.t2.t6 t6792.t2.t11))
% 32.29/32.53 (step t6792.t2.t13 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6792.t2.t2 t6792.t2.t12))
% 32.29/32.53 (step t6792.t2 (cl (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule subproof :discharge (t6792.t2.a0 t6792.t2.a1))
% 32.29/32.53 (step t6792.t3 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule and_pos)
% 32.29/32.53 (step t6792.t4 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6792.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))))) :rule resolution :premises (t6792.t2 t6792.t3 t6792.t4))
% 32.29/32.53 (step t6792.t6 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule reordering :premises (t6792.t5))
% 32.29/32.53 (step t6792.t7 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule contraction :premises (t6792.t6))
% 32.29/32.53 (step t6792.t8 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6792.t1 t6792.t7))
% 32.29/32.53 (step t6792.t9 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg2)
% 32.29/32.53 (step t6792.t10 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t6792.t8 t6792.t9))
% 32.29/32.53 (step t6792.t11 (cl (=> (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t6792.t10))
% 32.29/32.53 (step t6792.t12 (cl (not (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule implies :premises (t6792.t11))
% 32.29/32.53 (step t6792.t13 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule and_neg)
% 32.29/32.53 (step t6792.t14 (cl (and (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6792.t13 t6792.a1 t6792.a0))
% 32.29/32.53 (step t6792.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6792.t12 t6792.t14))
% 32.29/32.53 (step t6792 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule subproof :discharge (t6792.a0 t6792.a1))
% 32.29/32.53 (step t6793 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6794 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule and_pos)
% 32.29/32.53 (step t6795 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))) (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))))) :rule resolution :premises (t6792 t6793 t6794))
% 32.29/32.53 (step t6796 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule reordering :premises (t6795))
% 32.29/32.53 (step t6797 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule contraction :premises (t6796))
% 32.29/32.53 (step t6798 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6791 t6797))
% 32.29/32.53 (step t6799 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule implies_neg2)
% 32.29/32.53 (step t6800 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t6798 t6799))
% 32.29/32.53 (step t6801 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t6800))
% 32.29/32.53 (step t6802 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21))))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule implies :premises (t6801))
% 32.29/32.53 (step t6803 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule resolution :premises (t6790 t6802))
% 32.29/32.53 (step t6804 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))))) :rule or_neg)
% 32.29/32.53 (step t6805 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))))) :rule or_neg)
% 32.29/32.53 (step t6806 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (not (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule or_neg)
% 32.29/32.53 (step t6807 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t6803 t6804 t6805 t6806))
% 32.29/32.53 (step t6808 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule contraction :premises (t6807))
% 32.29/32.53 (step t6809 (cl (or (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))))) :rule resolution :premises (t6777 t6789 t6808))
% 32.29/32.53 (step t6810 (cl (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21)))) :rule or :premises (t6809))
% 32.29/32.53 (step t6811 (cl (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule reordering :premises (t6810))
% 32.29/32.53 (step t6812 (cl (not (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 tptp.e20 tptp.e21)))) :rule and :premises (t459))
% 32.29/32.53 (step t6813 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6776 t6811 t6812))
% 32.29/32.53 (step t6814 (cl (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= (tptp.op2 tptp.e22 tptp.e22) (tptp.h3 tptp.e11))) (= tptp.e20 tptp.e21) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (= tptp.e21 tptp.e23) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 tptp.e20 tptp.e22)) (not (= tptp.e22 (tptp.h3 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))) :rule contraction :premises (t6813))
% 32.29/32.53 (step t6815 (cl (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2))) :rule and_neg)
% 32.29/32.53 (step t6816 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6817)
% 32.29/32.53 (assume t6817.a0 (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))
% 32.29/32.53 (assume t6817.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.53 (step t6817.t1 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6817.t2)
% 32.29/32.53 (assume t6817.t2.a0 (= tptp.e22 tptp.unit2))
% 32.29/32.53 (assume t6817.t2.a1 (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))
% 32.29/32.53 (step t6817.t2.t1 (cl (= (tptp.op2 tptp.unit2 tptp.e21) tptp.e21)) :rule symm :premises (t6817.t2.a1))
% 32.29/32.53 (step t6817.t2.t2 (cl (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule symm :premises (t6817.t2.t1))
% 32.29/32.53 (step t6817.t2.t3 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t6817.t2.a0))
% 32.29/32.53 (step t6817.t2.t4 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.53 (step t6817.t2.t5 (cl (= (tptp.op2 tptp.unit2 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) :rule cong :premises (t6817.t2.t3 t6817.t2.t4))
% 32.29/32.53 (step t6817.t2.t6 (cl (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule trans :premises (t6817.t2.t2 t6817.t2.t5))
% 32.29/32.53 (step t6817.t2 (cl (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule subproof :discharge (t6817.t2.a0 t6817.t2.a1))
% 32.29/32.53 (step t6817.t3 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.53 (step t6817.t4 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6817.t5 (cl (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))))) :rule resolution :premises (t6817.t2 t6817.t3 t6817.t4))
% 32.29/32.53 (step t6817.t6 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule reordering :premises (t6817.t5))
% 32.29/32.53 (step t6817.t7 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule contraction :premises (t6817.t6))
% 32.29/32.53 (step t6817.t8 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule resolution :premises (t6817.t1 t6817.t7))
% 32.29/32.53 (step t6817.t9 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule implies_neg2)
% 32.29/32.53 (step t6817.t10 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6817.t8 t6817.t9))
% 32.29/32.53 (step t6817.t11 (cl (=> (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule contraction :premises (t6817.t10))
% 32.29/32.53 (step t6817.t12 (cl (not (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule implies :premises (t6817.t11))
% 32.29/32.53 (step t6817.t13 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) :rule and_neg)
% 32.29/32.53 (step t6817.t14 (cl (and (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))) :rule resolution :premises (t6817.t13 t6817.a1 t6817.a0))
% 32.29/32.53 (step t6817.t15 (cl (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule resolution :premises (t6817.t12 t6817.t14))
% 32.29/32.53 (step t6817 (cl (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule subproof :discharge (t6817.a0 t6817.a1))
% 32.29/32.53 (step t6818 (cl (not (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6819 (cl (not (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.53 (step t6820 (cl (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2)))) :rule resolution :premises (t6817 t6818 t6819))
% 32.29/32.53 (step t6821 (cl (not (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2))) (not (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule reordering :premises (t6820))
% 32.29/32.53 (step t6822 (cl (not (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule contraction :premises (t6821))
% 32.29/32.53 (step t6823 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule resolution :premises (t6816 t6822))
% 32.29/32.53 (step t6824 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule implies_neg2)
% 32.29/32.53 (step t6825 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) (=> (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule resolution :premises (t6823 t6824))
% 32.29/32.53 (step t6826 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)))) :rule contraction :premises (t6825))
% 32.29/32.53 (step t6827 (cl (not (and (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule implies :premises (t6826))
% 32.29/32.53 (step t6828 (cl (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21))) :rule resolution :premises (t6815 t6827))
% 32.29/32.53 (step t6829 (cl (= tptp.e21 (tptp.op2 tptp.e22 tptp.e21)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2))) :rule reordering :premises (t6828))
% 32.29/32.53 (step t6830 (cl (not (and (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14))) (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14))) (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14))) (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14))) (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))))) :rule not_or :premises (t746))
% 32.29/32.53 (step t6831 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14))))) :rule not_and :premises (t6830))
% 32.29/32.53 (step t6832 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule and_neg)
% 32.29/32.53 (step t6833 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6834)
% 32.29/32.53 (assume t6834.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.53 (assume t6834.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.53 (assume t6834.a2 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t6834.a3 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6834.a4 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (step t6834.t1 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6834.t2)
% 32.29/32.53 (assume t6834.t2.a0 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6834.t2.a1 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6834.t2.a2 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t6834.t2.a3 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.53 (assume t6834.t2.a4 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.53 (step t6834.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t6834.t2.a4))
% 32.29/32.53 (step t6834.t2.t2 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t6834.t2.t1))
% 32.29/32.53 (step t6834.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.53 (step t6834.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule cong :premises (t6834.t2.t2 t6834.t2.t3))
% 32.29/32.53 (step t6834.t2.t5 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t6834.t2.a3))
% 32.29/32.53 (step t6834.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule trans :premises (t6834.t2.t4 t6834.t2.t5))
% 32.29/32.53 (step t6834.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.h4 tptp.e10))) :rule cong :premises (t6834.t2.t6))
% 32.29/32.53 (step t6834.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t6834.t2.a2))
% 32.29/32.53 (step t6834.t2.t9 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t6834.t2.t8))
% 32.29/32.53 (step t6834.t2.t10 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6834.t2.a0))
% 32.29/32.53 (step t6834.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule symm :premises (t6834.t2.t10))
% 32.29/32.53 (step t6834.t2.t12 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t6834.t2.a1))
% 32.29/32.53 (step t6834.t2.t13 (cl (= tptp.e23 (tptp.h4 tptp.e14))) :rule symm :premises (t6834.t2.t12))
% 32.29/32.53 (step t6834.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule cong :premises (t6834.t2.t11 t6834.t2.t13))
% 32.29/32.53 (step t6834.t2.t15 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule trans :premises (t6834.t2.t7 t6834.t2.t9 t6834.t2.t14))
% 32.29/32.53 (step t6834.t2 (cl (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t6834.t2.a0 t6834.t2.a1 t6834.t2.a2 t6834.t2.a3 t6834.t2.a4))
% 32.29/32.53 (step t6834.t3 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6834.t4 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6834.t5 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6834.t6 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6834.t7 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6834.t8 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t6834.t2 t6834.t3 t6834.t4 t6834.t5 t6834.t6 t6834.t7))
% 32.29/32.53 (step t6834.t9 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule reordering :premises (t6834.t8))
% 32.29/32.53 (step t6834.t10 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule contraction :premises (t6834.t9))
% 32.29/32.53 (step t6834.t11 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6834.t1 t6834.t10))
% 32.29/32.53 (step t6834.t12 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.53 (step t6834.t13 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))))) :rule resolution :premises (t6834.t11 t6834.t12))
% 32.29/32.53 (step t6834.t14 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))))) :rule contraction :premises (t6834.t13))
% 32.29/32.53 (step t6834.t15 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule implies :premises (t6834.t14))
% 32.29/32.53 (step t6834.t16 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.53 (step t6834.t17 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t6834.t16 t6834.a4 t6834.a3 t6834.a2 t6834.a0 t6834.a1))
% 32.29/32.53 (step t6834.t18 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6834.t15 t6834.t17))
% 32.29/32.53 (step t6834 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t6834.a0 t6834.a1 t6834.a2 t6834.a3 t6834.a4))
% 32.29/32.53 (step t6835 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6836 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6837 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6838 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6839 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6840 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))))) :rule resolution :premises (t6834 t6835 t6836 t6837 t6838 t6839))
% 32.29/32.53 (step t6841 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule reordering :premises (t6840))
% 32.29/32.53 (step t6842 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule contraction :premises (t6841))
% 32.29/32.53 (step t6843 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6833 t6842))
% 32.29/32.53 (step t6844 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.53 (step t6845 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))))) :rule resolution :premises (t6843 t6844))
% 32.29/32.53 (step t6846 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))))) :rule contraction :premises (t6845))
% 32.29/32.53 (step t6847 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule implies :premises (t6846))
% 32.29/32.53 (step t6848 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6832 t6847))
% 32.29/32.53 (step t6849 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule reordering :premises (t6848))
% 32.29/32.53 (step t6850 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and :premises (t5977))
% 32.29/32.53 (step t6851 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and :premises (t5977))
% 32.29/32.53 (step t6852 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6849 t767 t768 t5978 t6850 t6851))
% 32.29/32.53 (step t6853 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t6854 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6855)
% 32.29/32.53 (assume t6855.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.53 (assume t6855.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.53 (assume t6855.a2 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t6855.a3 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6855.a4 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t6855.t1 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6855.t2)
% 32.29/32.53 (assume t6855.t2.a0 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t6855.t2.a1 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6855.t2.a2 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t6855.t2.a3 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.53 (assume t6855.t2.a4 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.53 (step t6855.t2.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t6855.t2.a4))
% 32.29/32.53 (step t6855.t2.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t6855.t2.t1))
% 32.29/32.53 (step t6855.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.53 (step t6855.t2.t4 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule cong :premises (t6855.t2.t2 t6855.t2.t3))
% 32.29/32.53 (step t6855.t2.t5 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t6855.t2.a3))
% 32.29/32.53 (step t6855.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule trans :premises (t6855.t2.t4 t6855.t2.t5))
% 32.29/32.53 (step t6855.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.h4 tptp.e12))) :rule cong :premises (t6855.t2.t6))
% 32.29/32.53 (step t6855.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t6855.t2.a2))
% 32.29/32.53 (step t6855.t2.t9 (cl (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule symm :premises (t6855.t2.t8))
% 32.29/32.53 (step t6855.t2.t10 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t6855.t2.a0))
% 32.29/32.53 (step t6855.t2.t11 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t6855.t2.t10))
% 32.29/32.53 (step t6855.t2.t12 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t6855.t2.a1))
% 32.29/32.53 (step t6855.t2.t13 (cl (= tptp.e23 (tptp.h4 tptp.e14))) :rule symm :premises (t6855.t2.t12))
% 32.29/32.53 (step t6855.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule cong :premises (t6855.t2.t11 t6855.t2.t13))
% 32.29/32.53 (step t6855.t2.t15 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule trans :premises (t6855.t2.t7 t6855.t2.t9 t6855.t2.t14))
% 32.29/32.53 (step t6855.t2 (cl (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t6855.t2.a0 t6855.t2.a1 t6855.t2.a2 t6855.t2.a3 t6855.t2.a4))
% 32.29/32.53 (step t6855.t3 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6855.t4 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6855.t5 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6855.t6 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6855.t7 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.53 (step t6855.t8 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t6855.t2 t6855.t3 t6855.t4 t6855.t5 t6855.t6 t6855.t7))
% 32.29/32.53 (step t6855.t9 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule reordering :premises (t6855.t8))
% 32.29/32.53 (step t6855.t10 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule contraction :premises (t6855.t9))
% 32.29/32.53 (step t6855.t11 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6855.t1 t6855.t10))
% 32.29/32.53 (step t6855.t12 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.53 (step t6855.t13 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))))) :rule resolution :premises (t6855.t11 t6855.t12))
% 32.29/32.53 (step t6855.t14 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))))) :rule contraction :premises (t6855.t13))
% 32.29/32.53 (step t6855.t15 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule implies :premises (t6855.t14))
% 32.29/32.53 (step t6855.t16 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.53 (step t6855.t17 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t6855.t16 t6855.a4 t6855.a3 t6855.a2 t6855.a0 t6855.a1))
% 32.29/32.53 (step t6855.t18 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6855.t15 t6855.t17))
% 32.29/32.53 (step t6855 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t6855.a0 t6855.a1 t6855.a2 t6855.a3 t6855.a4))
% 32.29/32.53 (step t6856 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6857 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.53 (step t6858 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6859 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6860 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6861 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6855 t6856 t6857 t6858 t6859 t6860))
% 32.29/32.53 (step t6862 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule reordering :premises (t6861))
% 32.29/32.53 (step t6863 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule contraction :premises (t6862))
% 32.29/32.53 (step t6864 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6854 t6863))
% 32.29/32.53 (step t6865 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.53 (step t6866 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))))) :rule resolution :premises (t6864 t6865))
% 32.29/32.53 (step t6867 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))))) :rule contraction :premises (t6866))
% 32.29/32.53 (step t6868 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule implies :premises (t6867))
% 32.29/32.53 (step t6869 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6853 t6868))
% 32.29/32.53 (step t6870 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6869))
% 32.29/32.53 (step t6871 (cl (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and :premises (t5977))
% 32.29/32.53 (step t6872 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and :premises (t5977))
% 32.29/32.53 (step t6873 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6870 t798 t799 t5978 t6871 t6872))
% 32.29/32.53 (step t6874 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t6875 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6876)
% 32.29/32.53 (assume t6876.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.53 (assume t6876.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.53 (assume t6876.a2 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6876.a3 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6876.a4 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t6876.t1 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6876.t2)
% 32.29/32.53 (assume t6876.t2.a0 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6876.t2.a1 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6876.t2.a2 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t6876.t2.a3 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.53 (assume t6876.t2.a4 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.53 (step t6876.t2.t1 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.53 (step t6876.t2.t2 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t6876.t2.a4))
% 32.29/32.53 (step t6876.t2.t3 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t6876.t2.t2))
% 32.29/32.53 (step t6876.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule cong :premises (t6876.t2.t1 t6876.t2.t3))
% 32.29/32.53 (step t6876.t2.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t6876.t2.a3))
% 32.29/32.53 (step t6876.t2.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t6876.t2.t5))
% 32.29/32.53 (step t6876.t2.t7 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t6876.t2.t6))
% 32.29/32.53 (step t6876.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule trans :premises (t6876.t2.t4 t6876.t2.t7))
% 32.29/32.53 (step t6876.t2.t9 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.h4 tptp.e13))) :rule cong :premises (t6876.t2.t8))
% 32.29/32.53 (step t6876.t2.t10 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t6876.t2.a2))
% 32.29/32.53 (step t6876.t2.t11 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t6876.t2.t10))
% 32.29/32.53 (step t6876.t2.t12 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t6876.t2.t11))
% 32.29/32.53 (step t6876.t2.t13 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t6876.t2.a0))
% 32.29/32.53 (step t6876.t2.t14 (cl (= tptp.e23 (tptp.h4 tptp.e14))) :rule symm :premises (t6876.t2.t13))
% 32.29/32.53 (step t6876.t2.t15 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6876.t2.a1))
% 32.29/32.53 (step t6876.t2.t16 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule symm :premises (t6876.t2.t15))
% 32.29/32.53 (step t6876.t2.t17 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t6876.t2.t14 t6876.t2.t16))
% 32.29/32.53 (step t6876.t2.t18 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule trans :premises (t6876.t2.t9 t6876.t2.t12 t6876.t2.t17))
% 32.29/32.53 (step t6876.t2 (cl (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t6876.t2.a0 t6876.t2.a1 t6876.t2.a2 t6876.t2.a3 t6876.t2.a4))
% 32.29/32.53 (step t6876.t3 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6876.t4 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6876.t5 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6876.t6 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.53 (step t6876.t7 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6876.t8 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t6876.t2 t6876.t3 t6876.t4 t6876.t5 t6876.t6 t6876.t7))
% 32.29/32.53 (step t6876.t9 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule reordering :premises (t6876.t8))
% 32.29/32.53 (step t6876.t10 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule contraction :premises (t6876.t9))
% 32.29/32.53 (step t6876.t11 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6876.t1 t6876.t10))
% 32.29/32.53 (step t6876.t12 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t6876.t13 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))))) :rule resolution :premises (t6876.t11 t6876.t12))
% 32.29/32.53 (step t6876.t14 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))))) :rule contraction :premises (t6876.t13))
% 32.29/32.53 (step t6876.t15 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule implies :premises (t6876.t14))
% 32.29/32.53 (step t6876.t16 (cl (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.53 (step t6876.t17 (cl (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t6876.t16 t6876.a2 t6876.a3 t6876.a4 t6876.a1 t6876.a0))
% 32.29/32.53 (step t6876.t18 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6876.t15 t6876.t17))
% 32.29/32.53 (step t6876 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t6876.a0 t6876.a1 t6876.a2 t6876.a3 t6876.a4))
% 32.29/32.53 (step t6877 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6878 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.53 (step t6879 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6880 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6881 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6882 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6876 t6877 t6878 t6879 t6880 t6881))
% 32.29/32.53 (step t6883 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule reordering :premises (t6882))
% 32.29/32.53 (step t6884 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule contraction :premises (t6883))
% 32.29/32.53 (step t6885 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6875 t6884))
% 32.29/32.53 (step t6886 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t6887 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))))) :rule resolution :premises (t6885 t6886))
% 32.29/32.53 (step t6888 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))))) :rule contraction :premises (t6887))
% 32.29/32.53 (step t6889 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule implies :premises (t6888))
% 32.29/32.53 (step t6890 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6874 t6889))
% 32.29/32.53 (step t6891 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6890))
% 32.29/32.53 (step t6892 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6891 t767 t799 t5978 t6851 t6872))
% 32.29/32.53 (step t6893 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule and_neg)
% 32.29/32.53 (step t6894 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6895)
% 32.29/32.53 (assume t6895.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.53 (assume t6895.a1 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6895.a2 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (step t6895.t1 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6895.t2)
% 32.29/32.53 (assume t6895.t2.a0 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6895.t2.a1 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6895.t2.a2 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.53 (step t6895.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t6895.t2.a2))
% 32.29/32.53 (step t6895.t2.t2 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t6895.t2.t1))
% 32.29/32.53 (step t6895.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t6895.t2.t2))
% 32.29/32.53 (step t6895.t2.t4 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.h4 tptp.e11))) :rule cong :premises (t6895.t2.t3))
% 32.29/32.53 (step t6895.t2.t5 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6895.t2.a1))
% 32.29/32.53 (step t6895.t2.t6 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule symm :premises (t6895.t2.t5))
% 32.29/32.53 (step t6895.t2.t7 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6895.t2.t6))
% 32.29/32.53 (step t6895.t2.t8 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t6895.t2.a0))
% 32.29/32.53 (step t6895.t2.t9 (cl (= tptp.e23 (tptp.h4 tptp.e14))) :rule symm :premises (t6895.t2.t8))
% 32.29/32.53 (step t6895.t2.t10 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule cong :premises (t6895.t2.t9 t6895.t2.t9))
% 32.29/32.53 (step t6895.t2.t11 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule trans :premises (t6895.t2.t4 t6895.t2.t7 t6895.t2.t10))
% 32.29/32.53 (step t6895.t2 (cl (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t6895.t2.a0 t6895.t2.a1 t6895.t2.a2))
% 32.29/32.53 (step t6895.t3 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6895.t4 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6895.t5 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6895.t6 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t6895.t2 t6895.t3 t6895.t4 t6895.t5))
% 32.29/32.53 (step t6895.t7 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule reordering :premises (t6895.t6))
% 32.29/32.53 (step t6895.t8 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule contraction :premises (t6895.t7))
% 32.29/32.53 (step t6895.t9 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6895.t1 t6895.t8))
% 32.29/32.53 (step t6895.t10 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.53 (step t6895.t11 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))))) :rule resolution :premises (t6895.t9 t6895.t10))
% 32.29/32.53 (step t6895.t12 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))))) :rule contraction :premises (t6895.t11))
% 32.29/32.53 (step t6895.t13 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule implies :premises (t6895.t12))
% 32.29/32.53 (step t6895.t14 (cl (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.53 (step t6895.t15 (cl (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t6895.t14 t6895.a1 t6895.a2 t6895.a0))
% 32.29/32.53 (step t6895.t16 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6895.t13 t6895.t15))
% 32.29/32.53 (step t6895 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t6895.a0 t6895.a1 t6895.a2))
% 32.29/32.53 (step t6896 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6897 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6898 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6899 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))))) :rule resolution :premises (t6895 t6896 t6897 t6898))
% 32.29/32.53 (step t6900 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule reordering :premises (t6899))
% 32.29/32.53 (step t6901 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule contraction :premises (t6900))
% 32.29/32.53 (step t6902 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6894 t6901))
% 32.29/32.53 (step t6903 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.53 (step t6904 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))))) :rule resolution :premises (t6902 t6903))
% 32.29/32.53 (step t6905 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))))) :rule contraction :premises (t6904))
% 32.29/32.53 (step t6906 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule implies :premises (t6905))
% 32.29/32.53 (step t6907 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6893 t6906))
% 32.29/32.53 (step t6908 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule reordering :premises (t6907))
% 32.29/32.53 (step t6909 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e14)))) :rule resolution :premises (t6908 t767 t5978 t6851))
% 32.29/32.53 (step t6910 (cl (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e23 (tptp.h4 tptp.e14)))) :rule or_neg)
% 32.29/32.53 (step t6911 (cl (or (= tptp.e23 (tptp.h4 tptp.e10)) (= tptp.e23 (tptp.h4 tptp.e11)) (= tptp.e23 (tptp.h4 tptp.e12)) (= tptp.e23 (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)))) :rule resolution :premises (t6910 t5978))
% 32.29/32.53 (step t6912 (cl (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t6913 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6914)
% 32.29/32.53 (assume t6914.a0 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))
% 32.29/32.53 (assume t6914.a1 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.53 (assume t6914.a2 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t6914.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t6914.a4 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6914.a5 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6914.a6 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t6914.t1 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6914.t2)
% 32.29/32.53 (assume t6914.t2.a0 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t6914.t2.a1 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6914.t2.a2 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6914.t2.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t6914.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t6914.t2.a5 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.53 (assume t6914.t2.a6 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))
% 32.29/32.53 (step t6914.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11)) :rule symm :premises (t6914.t2.a6))
% 32.29/32.53 (step t6914.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.h4 tptp.e11))) :rule cong :premises (t6914.t2.t1))
% 32.29/32.53 (step t6914.t2.t3 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6914.t2.a2))
% 32.29/32.53 (step t6914.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t6914.t2.a3))
% 32.29/32.53 (step t6914.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e21)) :rule symm :premises (t6914.t2.a5))
% 32.29/32.53 (step t6914.t2.t6 (cl (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t6914.t2.t5))
% 32.29/32.53 (step t6914.t2.t7 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t6914.t2.a4))
% 32.29/32.53 (step t6914.t2.t8 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t6914.t2.t7))
% 32.29/32.53 (step t6914.t2.t9 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6914.t2.t4))
% 32.29/32.53 (step t6914.t2.t10 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t6914.t2.t9 t6914.t2.a2))
% 32.29/32.53 (step t6914.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t6914.t2.a1 t6914.t2.t10))
% 32.29/32.53 (step t6914.t2.t12 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t6914.t2.a1))
% 32.29/32.53 (step t6914.t2.t13 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t6914.t2.t12 t6914.t2.t3))
% 32.29/32.53 (step t6914.t2.t14 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t6914.t2.a0))
% 32.29/32.53 (step t6914.t2.t15 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t6914.t2.t14))
% 32.29/32.53 (step t6914.t2.t16 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t6914.t2.t8 t6914.t2.t11 t6914.t2.t13 t6914.t2.t15))
% 32.29/32.53 (step t6914.t2.t17 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule cong :premises (t6914.t2.t16 t6914.t2.t16))
% 32.29/32.53 (step t6914.t2.t18 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule trans :premises (t6914.t2.t2 t6914.t2.t3 t6914.t2.t4 t6914.t2.t6 t6914.t2.t17))
% 32.29/32.53 (step t6914.t2 (cl (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t6914.t2.a0 t6914.t2.a1 t6914.t2.a2 t6914.t2.a3 t6914.t2.a4 t6914.t2.a5 t6914.t2.a6))
% 32.29/32.53 (step t6914.t3 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6914.t4 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6914.t5 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6914.t6 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6914.t7 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6914.t8 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.53 (step t6914.t9 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6914.t10 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t6914.t2 t6914.t3 t6914.t4 t6914.t5 t6914.t6 t6914.t7 t6914.t8 t6914.t9))
% 32.29/32.53 (step t6914.t11 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6914.t10))
% 32.29/32.53 (step t6914.t12 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule contraction :premises (t6914.t11))
% 32.29/32.53 (step t6914.t13 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule resolution :premises (t6914.t1 t6914.t12))
% 32.29/32.53 (step t6914.t14 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.53 (step t6914.t15 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6914.t13 t6914.t14))
% 32.29/32.53 (step t6914.t16 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))))) :rule contraction :premises (t6914.t15))
% 32.29/32.53 (step t6914.t17 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule implies :premises (t6914.t16))
% 32.29/32.53 (step t6914.t18 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t6914.t19 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t6914.t18 t6914.a6 t6914.a4 t6914.a5 t6914.a3 t6914.a2 t6914.a1 t6914.a0))
% 32.29/32.53 (step t6914.t20 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule resolution :premises (t6914.t17 t6914.t19))
% 32.29/32.53 (step t6914 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t6914.a0 t6914.a1 t6914.a2 t6914.a3 t6914.a4 t6914.a5 t6914.a6))
% 32.29/32.53 (step t6915 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6916 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.53 (step t6917 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6918 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6919 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6920 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6921 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6922 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6914 t6915 t6916 t6917 t6918 t6919 t6920 t6921))
% 32.29/32.53 (step t6923 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6922))
% 32.29/32.53 (step t6924 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule contraction :premises (t6923))
% 32.29/32.53 (step t6925 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule resolution :premises (t6913 t6924))
% 32.29/32.53 (step t6926 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.53 (step t6927 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6925 t6926))
% 32.29/32.53 (step t6928 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))))) :rule contraction :premises (t6927))
% 32.29/32.53 (step t6929 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule implies :premises (t6928))
% 32.29/32.53 (step t6930 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13)))) :rule resolution :premises (t6912 t6929))
% 32.29/32.53 (step t6931 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6930))
% 32.29/32.53 (step t6932 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t6933 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6934)
% 32.29/32.53 (assume t6934.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t6934.a1 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t6934.a2 (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))
% 32.29/32.53 (assume t6934.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t6934.a4 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.53 (assume t6934.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t6934.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t6934.a7 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.53 (assume t6934.a8 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6934.a9 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6934.a10 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t6934.t1 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6934.t2)
% 32.29/32.53 (assume t6934.t2.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t6934.t2.a1 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t6934.t2.a2 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6934.t2.a3 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6934.t2.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t6934.t2.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t6934.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t6934.t2.a7 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.53 (assume t6934.t2.a8 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.53 (assume t6934.t2.a9 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t6934.t2.a10 (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))
% 32.29/32.53 (step t6934.t2.t1 (cl (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10)) :rule symm :premises (t6934.t2.a10))
% 32.29/32.53 (step t6934.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.h4 tptp.e10))) :rule cong :premises (t6934.t2.t1))
% 32.29/32.53 (step t6934.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t6934.t2.a9))
% 32.29/32.53 (step t6934.t2.t4 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t6934.t2.t3))
% 32.29/32.53 (step t6934.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t6934.t2.a4))
% 32.29/32.53 (step t6934.t2.t6 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.53 (step t6934.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) :rule cong :premises (t6934.t2.t5 t6934.t2.t6))
% 32.29/32.53 (step t6934.t2.t8 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t6934.t2.a8))
% 32.29/32.53 (step t6934.t2.t9 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) :rule symm :premises (t6934.t2.a7))
% 32.29/32.53 (step t6934.t2.t10 (cl (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule symm :premises (t6934.t2.t9))
% 32.29/32.53 (step t6934.t2.t11 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t6934.t2.a6))
% 32.29/32.53 (step t6934.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t6934.t2.t11))
% 32.29/32.53 (step t6934.t2.t13 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t6934.t2.a5))
% 32.29/32.53 (step t6934.t2.t14 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t6934.t2.t13))
% 32.29/32.53 (step t6934.t2.t15 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6934.t2.t5))
% 32.29/32.53 (step t6934.t2.t16 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t6934.t2.t15 t6934.t2.a3))
% 32.29/32.53 (step t6934.t2.t17 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t6934.t2.a2 t6934.t2.t16))
% 32.29/32.53 (step t6934.t2.t18 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t6934.t2.a2))
% 32.29/32.53 (step t6934.t2.t19 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6934.t2.a3))
% 32.29/32.53 (step t6934.t2.t20 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t6934.t2.t18 t6934.t2.t19))
% 32.29/32.53 (step t6934.t2.t21 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t6934.t2.a1))
% 32.29/32.53 (step t6934.t2.t22 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t6934.t2.t21))
% 32.29/32.53 (step t6934.t2.t23 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t6934.t2.t14 t6934.t2.t17 t6934.t2.t20 t6934.t2.t22))
% 32.29/32.53 (step t6934.t2.t24 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t6934.t2.t23 t6934.t2.t21))
% 32.29/32.53 (step t6934.t2.t25 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t6934.t2.t24 t6934.t2.t6))
% 32.29/32.53 (step t6934.t2.t26 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t6934.t2.a0))
% 32.29/32.53 (step t6934.t2.t27 (cl (= tptp.e24 (tptp.h4 tptp.e12))) :rule trans :premises (t6934.t2.t12 t6934.t2.t25 t6934.t2.t26))
% 32.29/32.53 (step t6934.t2.t28 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule cong :premises (t6934.t2.t27 t6934.t2.t23))
% 32.29/32.53 (step t6934.t2.t29 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule trans :premises (t6934.t2.t2 t6934.t2.t4 t6934.t2.t7 t6934.t2.t8 t6934.t2.t10 t6934.t2.t28))
% 32.29/32.53 (step t6934.t2 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t6934.t2.a0 t6934.t2.a1 t6934.t2.a2 t6934.t2.a3 t6934.t2.a4 t6934.t2.a5 t6934.t2.a6 t6934.t2.a7 t6934.t2.a8 t6934.t2.a9 t6934.t2.a10))
% 32.29/32.53 (step t6934.t3 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6934.t4 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6934.t5 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6934.t6 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6934.t7 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6934.t8 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6934.t9 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6934.t10 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.53 (step t6934.t11 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6934.t12 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6934.t13 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6934.t14 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))))) :rule resolution :premises (t6934.t2 t6934.t3 t6934.t4 t6934.t5 t6934.t6 t6934.t7 t6934.t8 t6934.t9 t6934.t10 t6934.t11 t6934.t12 t6934.t13))
% 32.29/32.53 (step t6934.t15 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6934.t14))
% 32.29/32.53 (step t6934.t16 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule contraction :premises (t6934.t15))
% 32.29/32.53 (step t6934.t17 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule resolution :premises (t6934.t1 t6934.t16))
% 32.29/32.53 (step t6934.t18 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.53 (step t6934.t19 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6934.t17 t6934.t18))
% 32.29/32.53 (step t6934.t20 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))))) :rule contraction :premises (t6934.t19))
% 32.29/32.53 (step t6934.t21 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule implies :premises (t6934.t20))
% 32.29/32.53 (step t6934.t22 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t6934.t23 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) :rule resolution :premises (t6934.t22 t6934.a1 t6934.a10 t6934.a8 t6934.a9 t6934.a6 t6934.a5 t6934.a3 t6934.a7 t6934.a4 t6934.a0 t6934.a2))
% 32.29/32.53 (step t6934.t24 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule resolution :premises (t6934.t21 t6934.t23))
% 32.29/32.53 (step t6934 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t6934.a0 t6934.a1 t6934.a2 t6934.a3 t6934.a4 t6934.a5 t6934.a6 t6934.a7 t6934.a8 t6934.a9 t6934.a10))
% 32.29/32.53 (step t6935 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6936 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6937 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6938 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6939 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6940 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6941 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6942 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.53 (step t6943 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6944 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6945 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6946 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6934 t6935 t6936 t6937 t6938 t6939 t6940 t6941 t6942 t6943 t6944 t6945))
% 32.29/32.53 (step t6947 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6946))
% 32.29/32.53 (step t6948 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule contraction :premises (t6947))
% 32.29/32.53 (step t6949 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule resolution :premises (t6933 t6948))
% 32.29/32.53 (step t6950 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.53 (step t6951 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6949 t6950))
% 32.29/32.53 (step t6952 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))))) :rule contraction :premises (t6951))
% 32.29/32.53 (step t6953 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule implies :premises (t6952))
% 32.29/32.53 (step t6954 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13)))) :rule resolution :premises (t6932 t6953))
% 32.29/32.53 (step t6955 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6954))
% 32.29/32.53 (step t6956 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t6957 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6958)
% 32.29/32.53 (assume t6958.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t6958.a1 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.53 (assume t6958.a2 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.53 (assume t6958.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.53 (assume t6958.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t6958.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t6958.a6 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6958.a7 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6958.a8 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t6958.t1 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6958.t2)
% 32.29/32.53 (assume t6958.t2.a0 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t6958.t2.a1 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6958.t2.a2 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6958.t2.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t6958.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t6958.t2.a5 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.53 (assume t6958.t2.a6 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.53 (assume t6958.t2.a7 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t6958.t2.a8 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.53 (step t6958.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10)) :rule symm :premises (t6958.t2.a8))
% 32.29/32.53 (step t6958.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.h4 tptp.e10))) :rule cong :premises (t6958.t2.t1))
% 32.29/32.53 (step t6958.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t6958.t2.a7))
% 32.29/32.53 (step t6958.t2.t4 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t6958.t2.t3))
% 32.29/32.53 (step t6958.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t6958.t2.a3))
% 32.29/32.53 (step t6958.t2.t6 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.53 (step t6958.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) :rule cong :premises (t6958.t2.t5 t6958.t2.t6))
% 32.29/32.53 (step t6958.t2.t8 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t6958.t2.a6))
% 32.29/32.53 (step t6958.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t6958.t2.a5))
% 32.29/32.53 (step t6958.t2.t10 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t6958.t2.t9))
% 32.29/32.53 (step t6958.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t6958.t2.a4))
% 32.29/32.53 (step t6958.t2.t12 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t6958.t2.t11))
% 32.29/32.53 (step t6958.t2.t13 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6958.t2.t5))
% 32.29/32.53 (step t6958.t2.t14 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6958.t2.a2))
% 32.29/32.53 (step t6958.t2.t15 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule symm :premises (t6958.t2.t14))
% 32.29/32.53 (step t6958.t2.t16 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t6958.t2.t13 t6958.t2.t15))
% 32.29/32.53 (step t6958.t2.t17 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t6958.t2.a1 t6958.t2.t16))
% 32.29/32.53 (step t6958.t2.t18 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t6958.t2.a1))
% 32.29/32.53 (step t6958.t2.t19 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t6958.t2.t18 t6958.t2.t14))
% 32.29/32.53 (step t6958.t2.t20 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t6958.t2.a0))
% 32.29/32.53 (step t6958.t2.t21 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t6958.t2.t20))
% 32.29/32.53 (step t6958.t2.t22 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t6958.t2.t12 t6958.t2.t17 t6958.t2.t19 t6958.t2.t21))
% 32.29/32.53 (step t6958.t2.t23 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule cong :premises (t6958.t2.t22 t6958.t2.t16))
% 32.29/32.53 (step t6958.t2.t24 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule trans :premises (t6958.t2.t2 t6958.t2.t4 t6958.t2.t7 t6958.t2.t8 t6958.t2.t10 t6958.t2.t23))
% 32.29/32.53 (step t6958.t2 (cl (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t6958.t2.a0 t6958.t2.a1 t6958.t2.a2 t6958.t2.a3 t6958.t2.a4 t6958.t2.a5 t6958.t2.a6 t6958.t2.a7 t6958.t2.a8))
% 32.29/32.53 (step t6958.t3 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6958.t4 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6958.t5 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6958.t6 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6958.t7 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6958.t8 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6958.t9 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6958.t10 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6958.t11 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6958.t12 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t6958.t2 t6958.t3 t6958.t4 t6958.t5 t6958.t6 t6958.t7 t6958.t8 t6958.t9 t6958.t10 t6958.t11))
% 32.29/32.53 (step t6958.t13 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule reordering :premises (t6958.t12))
% 32.29/32.53 (step t6958.t14 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule contraction :premises (t6958.t13))
% 32.29/32.53 (step t6958.t15 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6958.t1 t6958.t14))
% 32.29/32.53 (step t6958.t16 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t6958.t17 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))))) :rule resolution :premises (t6958.t15 t6958.t16))
% 32.29/32.53 (step t6958.t18 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))))) :rule contraction :premises (t6958.t17))
% 32.29/32.53 (step t6958.t19 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule implies :premises (t6958.t18))
% 32.29/32.53 (step t6958.t20 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule and_neg)
% 32.29/32.53 (step t6958.t21 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t6958.t20 t6958.a8 t6958.a6 t6958.a7 t6958.a5 t6958.a4 t6958.a2 t6958.a3 t6958.a0 t6958.a1))
% 32.29/32.53 (step t6958.t22 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6958.t19 t6958.t21))
% 32.29/32.53 (step t6958 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t6958.a0 t6958.a1 t6958.a2 t6958.a3 t6958.a4 t6958.a5 t6958.a6 t6958.a7 t6958.a8))
% 32.29/32.53 (step t6959 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6960 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6961 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6962 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6963 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6964 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6965 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6966 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6967 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6968 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6958 t6959 t6960 t6961 t6962 t6963 t6964 t6965 t6966 t6967))
% 32.29/32.53 (step t6969 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule reordering :premises (t6968))
% 32.29/32.53 (step t6970 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule contraction :premises (t6969))
% 32.29/32.53 (step t6971 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6957 t6970))
% 32.29/32.53 (step t6972 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t6973 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))))) :rule resolution :premises (t6971 t6972))
% 32.29/32.53 (step t6974 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))))) :rule contraction :premises (t6973))
% 32.29/32.53 (step t6975 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule implies :premises (t6974))
% 32.29/32.53 (step t6976 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6956 t6975))
% 32.29/32.53 (step t6977 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6976))
% 32.29/32.53 (step t6978 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t6979 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6980)
% 32.29/32.53 (assume t6980.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.53 (assume t6980.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.53 (assume t6980.a2 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t6980.a3 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))
% 32.29/32.53 (assume t6980.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t6980.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t6980.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t6980.a7 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6980.a8 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6980.a9 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t6980.t1 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t6980.t2)
% 32.29/32.53 (assume t6980.t2.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t6980.t2.a1 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t6980.t2.a2 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t6980.t2.a3 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t6980.t2.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t6980.t2.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t6980.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t6980.t2.a7 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.53 (assume t6980.t2.a8 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.53 (assume t6980.t2.a9 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))
% 32.29/32.53 (step t6980.t2.t1 (cl (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14)) :rule symm :premises (t6980.t2.a9))
% 32.29/32.53 (step t6980.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.h4 tptp.e14))) :rule cong :premises (t6980.t2.t1))
% 32.29/32.53 (step t6980.t2.t3 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t6980.t2.a2))
% 32.29/32.53 (step t6980.t2.t4 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t6980.t2.a8))
% 32.29/32.53 (step t6980.t2.t5 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t6980.t2.t4))
% 32.29/32.53 (step t6980.t2.t6 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.53 (step t6980.t2.t7 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t6980.t2.a7))
% 32.29/32.53 (step t6980.t2.t8 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t6980.t2.t6 t6980.t2.t7))
% 32.29/32.53 (step t6980.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t6980.t2.a6))
% 32.29/32.53 (step t6980.t2.t10 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t6980.t2.t9))
% 32.29/32.53 (step t6980.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t6980.t2.a5))
% 32.29/32.53 (step t6980.t2.t12 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t6980.t2.t11))
% 32.29/32.53 (step t6980.t2.t13 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t6980.t2.a4))
% 32.29/32.53 (step t6980.t2.t14 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6980.t2.t13))
% 32.29/32.53 (step t6980.t2.t15 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t6980.t2.a3))
% 32.29/32.53 (step t6980.t2.t16 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule symm :premises (t6980.t2.t15))
% 32.29/32.53 (step t6980.t2.t17 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t6980.t2.t14 t6980.t2.t16))
% 32.29/32.53 (step t6980.t2.t18 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t6980.t2.a2 t6980.t2.t17))
% 32.29/32.53 (step t6980.t2.t19 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t6980.t2.t3 t6980.t2.t15))
% 32.29/32.53 (step t6980.t2.t20 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t6980.t2.a1))
% 32.29/32.53 (step t6980.t2.t21 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t6980.t2.t20))
% 32.29/32.53 (step t6980.t2.t22 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t6980.t2.t12 t6980.t2.t18 t6980.t2.t19 t6980.t2.t21))
% 32.29/32.53 (step t6980.t2.t23 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t6980.t2.t21))
% 32.29/32.53 (step t6980.t2.t24 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t6980.t2.t22 t6980.t2.t23))
% 32.29/32.53 (step t6980.t2.t25 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.53 (step t6980.t2.t26 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t6980.t2.t24 t6980.t2.t25))
% 32.29/32.53 (step t6980.t2.t27 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t6980.t2.a0))
% 32.29/32.53 (step t6980.t2.t28 (cl (= tptp.e24 (tptp.h4 tptp.e12))) :rule trans :premises (t6980.t2.t10 t6980.t2.t26 t6980.t2.t27))
% 32.29/32.53 (step t6980.t2.t29 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule cong :premises (t6980.t2.t28 t6980.t2.t17))
% 32.29/32.53 (step t6980.t2.t30 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule trans :premises (t6980.t2.t2 t6980.t2.t3 t6980.t2.t5 t6980.t2.t8 t6980.t2.t29))
% 32.29/32.53 (step t6980.t2 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t6980.t2.a0 t6980.t2.a1 t6980.t2.a2 t6980.t2.a3 t6980.t2.a4 t6980.t2.a5 t6980.t2.a6 t6980.t2.a7 t6980.t2.a8 t6980.t2.a9))
% 32.29/32.53 (step t6980.t3 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6980.t4 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6980.t5 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6980.t6 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6980.t7 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6980.t8 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6980.t9 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6980.t10 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t6980.t11 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.53 (step t6980.t12 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6980.t13 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t6980.t2 t6980.t3 t6980.t4 t6980.t5 t6980.t6 t6980.t7 t6980.t8 t6980.t9 t6980.t10 t6980.t11 t6980.t12))
% 32.29/32.53 (step t6980.t14 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule reordering :premises (t6980.t13))
% 32.29/32.53 (step t6980.t15 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule contraction :premises (t6980.t14))
% 32.29/32.53 (step t6980.t16 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6980.t1 t6980.t15))
% 32.29/32.53 (step t6980.t17 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t6980.t18 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))))) :rule resolution :premises (t6980.t16 t6980.t17))
% 32.29/32.53 (step t6980.t19 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))))) :rule contraction :premises (t6980.t18))
% 32.29/32.53 (step t6980.t20 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule implies :premises (t6980.t19))
% 32.29/32.53 (step t6980.t21 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule and_neg)
% 32.29/32.53 (step t6980.t22 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t6980.t21 t6980.a2 t6980.a9 t6980.a7 t6980.a8 t6980.a6 t6980.a5 t6980.a4 t6980.a0 t6980.a1 t6980.a3))
% 32.29/32.53 (step t6980.t23 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6980.t20 t6980.t22))
% 32.29/32.53 (step t6980 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t6980.a0 t6980.a1 t6980.a2 t6980.a3 t6980.a4 t6980.a5 t6980.a6 t6980.a7 t6980.a8 t6980.a9))
% 32.29/32.53 (step t6981 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t6982 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.53 (step t6983 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6984 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6985 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6986 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t6987 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t6988 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t6989 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t6990 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t6991 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t6980 t6981 t6982 t6983 t6984 t6985 t6986 t6987 t6988 t6989 t6990))
% 32.29/32.53 (step t6992 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule reordering :premises (t6991))
% 32.29/32.53 (step t6993 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule contraction :premises (t6992))
% 32.29/32.53 (step t6994 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6979 t6993))
% 32.29/32.53 (step t6995 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t6996 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))))) :rule resolution :premises (t6994 t6995))
% 32.29/32.53 (step t6997 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))))) :rule contraction :premises (t6996))
% 32.29/32.53 (step t6998 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule implies :premises (t6997))
% 32.29/32.53 (step t6999 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11)))) :rule resolution :premises (t6978 t6998))
% 32.29/32.53 (step t7000 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t6999))
% 32.29/32.53 (step t7001 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t7002 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7003)
% 32.29/32.53 (assume t7003.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t7003.a1 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.53 (assume t7003.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t7003.a3 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.53 (assume t7003.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7003.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7003.a6 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7003.a7 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7003.a8 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t7003.t1 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7003.t2)
% 32.29/32.53 (assume t7003.t2.a0 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t7003.t2.a1 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7003.t2.a2 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7003.t2.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7003.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7003.t2.a5 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t7003.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t7003.t2.a7 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.53 (assume t7003.t2.a8 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.53 (step t7003.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14)) :rule symm :premises (t7003.t2.a8))
% 32.29/32.53 (step t7003.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.h4 tptp.e14))) :rule cong :premises (t7003.t2.t1))
% 32.29/32.53 (step t7003.t2.t3 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7003.t2.a1))
% 32.29/32.53 (step t7003.t2.t4 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t7003.t2.a7))
% 32.29/32.53 (step t7003.t2.t5 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t7003.t2.t4))
% 32.29/32.53 (step t7003.t2.t6 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7003.t2.a4))
% 32.29/32.53 (step t7003.t2.t7 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7003.t2.t6))
% 32.29/32.53 (step t7003.t2.t8 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7003.t2.a3))
% 32.29/32.53 (step t7003.t2.t9 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7003.t2.t8))
% 32.29/32.53 (step t7003.t2.t10 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7003.t2.t9 t7003.t2.a2))
% 32.29/32.53 (step t7003.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7003.t2.a1 t7003.t2.t10))
% 32.29/32.53 (step t7003.t2.t12 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7003.t2.a2))
% 32.29/32.53 (step t7003.t2.t13 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7003.t2.t3 t7003.t2.t12))
% 32.29/32.53 (step t7003.t2.t14 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7003.t2.a0))
% 32.29/32.53 (step t7003.t2.t15 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7003.t2.t14))
% 32.29/32.53 (step t7003.t2.t16 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7003.t2.t7 t7003.t2.t11 t7003.t2.t13 t7003.t2.t15))
% 32.29/32.53 (step t7003.t2.t17 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7003.t2.a6))
% 32.29/32.53 (step t7003.t2.t18 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7003.t2.t17))
% 32.29/32.53 (step t7003.t2.t19 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7003.t2.t15))
% 32.29/32.53 (step t7003.t2.t20 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t7003.t2.t16 t7003.t2.t19))
% 32.29/32.53 (step t7003.t2.t21 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.53 (step t7003.t2.t22 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t7003.t2.t20 t7003.t2.t21))
% 32.29/32.53 (step t7003.t2.t23 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7003.t2.a5))
% 32.29/32.53 (step t7003.t2.t24 (cl (= tptp.e24 (tptp.h4 tptp.e12))) :rule trans :premises (t7003.t2.t18 t7003.t2.t22 t7003.t2.t23))
% 32.29/32.53 (step t7003.t2.t25 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule cong :premises (t7003.t2.t16 t7003.t2.t24))
% 32.29/32.53 (step t7003.t2.t26 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule trans :premises (t7003.t2.t2 t7003.t2.t3 t7003.t2.t5 t7003.t2.t25))
% 32.29/32.53 (step t7003.t2 (cl (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7003.t2.a0 t7003.t2.a1 t7003.t2.a2 t7003.t2.a3 t7003.t2.a4 t7003.t2.a5 t7003.t2.a6 t7003.t2.a7 t7003.t2.a8))
% 32.29/32.53 (step t7003.t3 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7003.t4 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7003.t5 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7003.t6 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7003.t7 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t7003.t8 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7003.t9 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7003.t10 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t7003.t11 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7003.t12 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t7003.t2 t7003.t3 t7003.t4 t7003.t5 t7003.t6 t7003.t7 t7003.t8 t7003.t9 t7003.t10 t7003.t11))
% 32.29/32.53 (step t7003.t13 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7003.t12))
% 32.29/32.53 (step t7003.t14 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7003.t13))
% 32.29/32.53 (step t7003.t15 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7003.t1 t7003.t14))
% 32.29/32.53 (step t7003.t16 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7003.t17 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7003.t15 t7003.t16))
% 32.29/32.53 (step t7003.t18 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7003.t17))
% 32.29/32.53 (step t7003.t19 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule implies :premises (t7003.t18))
% 32.29/32.53 (step t7003.t20 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.53 (step t7003.t21 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t7003.t20 t7003.a8 t7003.a6 t7003.a7 t7003.a5 t7003.a4 t7003.a0 t7003.a2 t7003.a3 t7003.a1))
% 32.29/32.53 (step t7003.t22 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7003.t19 t7003.t21))
% 32.29/32.53 (step t7003 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7003.a0 t7003.a1 t7003.a2 t7003.a3 t7003.a4 t7003.a5 t7003.a6 t7003.a7 t7003.a8))
% 32.29/32.53 (step t7004 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7005 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7006 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7007 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t7008 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t7009 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7010 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7011 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7012 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7013 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7003 t7004 t7005 t7006 t7007 t7008 t7009 t7010 t7011 t7012))
% 32.29/32.53 (step t7014 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7013))
% 32.29/32.53 (step t7015 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7014))
% 32.29/32.53 (step t7016 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7002 t7015))
% 32.29/32.53 (step t7017 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7018 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7016 t7017))
% 32.29/32.53 (step t7019 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7018))
% 32.29/32.53 (step t7020 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule implies :premises (t7019))
% 32.29/32.53 (step t7021 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7001 t7020))
% 32.29/32.53 (step t7022 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7021))
% 32.29/32.53 (step t7023 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t7024 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7025)
% 32.29/32.53 (assume t7025.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.53 (assume t7025.a1 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t7025.a2 (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))
% 32.29/32.53 (assume t7025.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t7025.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7025.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7025.a6 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7025.a7 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7025.a8 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t7025.t1 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7025.t2)
% 32.29/32.53 (assume t7025.t2.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t7025.t2.a1 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t7025.t2.a2 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7025.t2.a3 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7025.t2.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7025.t2.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7025.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t7025.t2.a7 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.53 (assume t7025.t2.a8 (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))
% 32.29/32.53 (step t7025.t2.t1 (cl (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11)) :rule symm :premises (t7025.t2.a8))
% 32.29/32.53 (step t7025.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.h4 tptp.e11))) :rule cong :premises (t7025.t2.t1))
% 32.29/32.53 (step t7025.t2.t3 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7025.t2.a3))
% 32.29/32.53 (step t7025.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7025.t2.a4))
% 32.29/32.53 (step t7025.t2.t5 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t7025.t2.a7))
% 32.29/32.53 (step t7025.t2.t6 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t7025.t2.t5))
% 32.29/32.53 (step t7025.t2.t7 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7025.t2.a6))
% 32.29/32.53 (step t7025.t2.t8 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7025.t2.t7))
% 32.29/32.53 (step t7025.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7025.t2.a5))
% 32.29/32.53 (step t7025.t2.t10 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7025.t2.t9))
% 32.29/32.53 (step t7025.t2.t11 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7025.t2.t4))
% 32.29/32.53 (step t7025.t2.t12 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7025.t2.t11 t7025.t2.a3))
% 32.29/32.53 (step t7025.t2.t13 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7025.t2.a2 t7025.t2.t12))
% 32.29/32.53 (step t7025.t2.t14 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7025.t2.a2))
% 32.29/32.53 (step t7025.t2.t15 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7025.t2.t14 t7025.t2.t3))
% 32.29/32.53 (step t7025.t2.t16 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7025.t2.a1))
% 32.29/32.53 (step t7025.t2.t17 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7025.t2.t16))
% 32.29/32.53 (step t7025.t2.t18 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7025.t2.t10 t7025.t2.t13 t7025.t2.t15 t7025.t2.t17))
% 32.29/32.53 (step t7025.t2.t19 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7025.t2.t17))
% 32.29/32.53 (step t7025.t2.t20 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t7025.t2.t18 t7025.t2.t19))
% 32.29/32.53 (step t7025.t2.t21 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.53 (step t7025.t2.t22 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t7025.t2.t20 t7025.t2.t21))
% 32.29/32.53 (step t7025.t2.t23 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7025.t2.a0))
% 32.29/32.53 (step t7025.t2.t24 (cl (= tptp.e24 (tptp.h4 tptp.e12))) :rule trans :premises (t7025.t2.t8 t7025.t2.t22 t7025.t2.t23))
% 32.29/32.53 (step t7025.t2.t25 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule cong :premises (t7025.t2.t24 t7025.t2.t24))
% 32.29/32.53 (step t7025.t2.t26 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule trans :premises (t7025.t2.t2 t7025.t2.t3 t7025.t2.t4 t7025.t2.t6 t7025.t2.t25))
% 32.29/32.53 (step t7025.t2 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7025.t2.a0 t7025.t2.a1 t7025.t2.a2 t7025.t2.a3 t7025.t2.a4 t7025.t2.a5 t7025.t2.a6 t7025.t2.a7 t7025.t2.a8))
% 32.29/32.53 (step t7025.t3 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7025.t4 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7025.t5 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7025.t6 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7025.t7 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7025.t8 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t7025.t9 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7025.t10 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t7025.t11 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7025.t12 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7025.t2 t7025.t3 t7025.t4 t7025.t5 t7025.t6 t7025.t7 t7025.t8 t7025.t9 t7025.t10 t7025.t11))
% 32.29/32.53 (step t7025.t13 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7025.t12))
% 32.29/32.53 (step t7025.t14 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7025.t13))
% 32.29/32.53 (step t7025.t15 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7025.t1 t7025.t14))
% 32.29/32.53 (step t7025.t16 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7025.t17 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7025.t15 t7025.t16))
% 32.29/32.53 (step t7025.t18 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7025.t17))
% 32.29/32.53 (step t7025.t19 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule implies :premises (t7025.t18))
% 32.29/32.53 (step t7025.t20 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule and_neg)
% 32.29/32.53 (step t7025.t21 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7025.t20 t7025.a1 t7025.a8 t7025.a6 t7025.a7 t7025.a5 t7025.a4 t7025.a3 t7025.a0 t7025.a2))
% 32.29/32.53 (step t7025.t22 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7025.t19 t7025.t21))
% 32.29/32.53 (step t7025 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7025.a0 t7025.a1 t7025.a2 t7025.a3 t7025.a4 t7025.a5 t7025.a6 t7025.a7 t7025.a8))
% 32.29/32.53 (step t7026 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t7027 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7028 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7029 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7030 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t7031 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7032 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7033 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7034 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7035 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7025 t7026 t7027 t7028 t7029 t7030 t7031 t7032 t7033 t7034))
% 32.29/32.53 (step t7036 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7035))
% 32.29/32.53 (step t7037 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7036))
% 32.29/32.53 (step t7038 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7024 t7037))
% 32.29/32.53 (step t7039 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7040 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7038 t7039))
% 32.29/32.53 (step t7041 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7040))
% 32.29/32.53 (step t7042 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule implies :premises (t7041))
% 32.29/32.53 (step t7043 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7023 t7042))
% 32.29/32.53 (step t7044 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7043))
% 32.29/32.53 (step t7045 (cl (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) :rule or :premises (t1454))
% 32.29/32.53 (step t7046 (cl (or (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule and :premises (t1107))
% 32.29/32.53 (step t7047 (cl (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) :rule or :premises (t7046))
% 32.29/32.53 (step t7048 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) :rule resolution :premises (t6831 t6852 t6873 t6892 t6909 t6911 t6931 t6872 t6851 t5978 t6955 t6872 t6871 t6851 t6850 t5978 t6977 t6872 t6851 t6850 t5978 t7000 t6872 t6871 t6851 t5978 t864 t461 t7022 t6872 t6871 t6851 t5978 t7044 t6872 t6871 t6851 t5978 t461 t7045 t1492 t2783 t767 t768 t2784 t7047))
% 32.29/32.53 (step t7049 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) :rule contraction :premises (t7048))
% 32.29/32.53 (step t7050 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t2000))
% 32.29/32.53 (step t7051 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))) :rule resolution :premises (t7049 t7050 t3828 t3272))
% 32.29/32.53 (step t7052 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))) :rule contraction :premises (t7051))
% 32.29/32.53 (step t7053 (cl (not (= (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (or (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))))) (not (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) (or (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.53 (step t7054 (cl (= (= (= (not (not (= tptp.e10 tptp.e14))) (= tptp.e10 tptp.e14)) true) (= (not (not (= tptp.e10 tptp.e14))) (= tptp.e10 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.53 (step t7055 (cl (not (= (= (not (not (= tptp.e10 tptp.e14))) (= tptp.e10 tptp.e14)) true)) (= (not (not (= tptp.e10 tptp.e14))) (= tptp.e10 tptp.e14))) :rule equiv1 :premises (t7054))
% 32.29/32.53 (step t7056 (cl (= (= (not (not (= tptp.e10 tptp.e14))) (= tptp.e10 tptp.e14)) (= (= tptp.e10 tptp.e14) (not (not (= tptp.e10 tptp.e14)))))) :rule all_simplify)
% 32.29/32.53 (step t7057 (cl (= (= tptp.e10 tptp.e14) (= tptp.e10 tptp.e14))) :rule refl)
% 32.29/32.53 (step t7058 (cl (= (not (not (= tptp.e10 tptp.e14))) (= tptp.e10 tptp.e14))) :rule all_simplify)
% 32.29/32.53 (step t7059 (cl (= (= (= tptp.e10 tptp.e14) (not (not (= tptp.e10 tptp.e14)))) (= (= tptp.e10 tptp.e14) (= tptp.e10 tptp.e14)))) :rule cong :premises (t7057 t7058))
% 32.29/32.53 (step t7060 (cl (= (= (= tptp.e10 tptp.e14) (= tptp.e10 tptp.e14)) true)) :rule all_simplify)
% 32.29/32.53 (step t7061 (cl (= (= (= tptp.e10 tptp.e14) (not (not (= tptp.e10 tptp.e14)))) true)) :rule trans :premises (t7059 t7060))
% 32.29/32.53 (step t7062 (cl (= (= (not (not (= tptp.e10 tptp.e14))) (= tptp.e10 tptp.e14)) true)) :rule trans :premises (t7056 t7061))
% 32.29/32.53 (step t7063 (cl (= (not (not (= tptp.e10 tptp.e14))) (= tptp.e10 tptp.e14))) :rule resolution :premises (t7055 t7062))
% 32.29/32.53 (step t7064 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))))) :rule refl)
% 32.29/32.53 (step t7065 (cl (= (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (or (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))))) :rule cong :premises (t7063 t7064 t2128))
% 32.29/32.53 (step t7066 (cl (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule and_neg)
% 32.29/32.53 (step t7067 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7068)
% 32.29/32.53 (assume t7068.a0 (not (= tptp.e10 tptp.e14)))
% 32.29/32.53 (assume t7068.a1 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))
% 32.29/32.53 (step t7068.t1 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7068.t2)
% 32.29/32.53 (assume t7068.t2.a0 (not (= tptp.e10 tptp.e14)))
% 32.29/32.53 (assume t7068.t2.a1 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))
% 32.29/32.53 (step t7068.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) false) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.53 (step t7068.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) false)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule equiv1 :premises (t7068.t2.t1))
% 32.29/32.53 (step t7068.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.53 (step t7068.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14)) :rule symm :premises (t7068.t2.a1))
% 32.29/32.53 (step t7068.t2.t5 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 tptp.e14))) :rule cong :premises (t7068.t2.t3 t7068.t2.t4))
% 32.29/32.53 (step t7068.t2.t6 (cl (= (= (= tptp.e10 tptp.e14) false) (not (= tptp.e10 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.53 (step t7068.t2.t7 (cl (= (= tptp.e10 tptp.e14) false) (not (not (= tptp.e10 tptp.e14)))) :rule equiv2 :premises (t7068.t2.t6))
% 32.29/32.53 (step t7068.t2.t8 (cl (not (not (not (= tptp.e10 tptp.e14)))) (= tptp.e10 tptp.e14)) :rule not_not)
% 32.29/32.53 (step t7068.t2.t9 (cl (= (= tptp.e10 tptp.e14) false) (= tptp.e10 tptp.e14)) :rule resolution :premises (t7068.t2.t7 t7068.t2.t8))
% 32.29/32.53 (step t7068.t2.t10 (cl (= (= tptp.e10 tptp.e14) false)) :rule resolution :premises (t7068.t2.t9 t7068.t2.a0))
% 32.29/32.53 (step t7068.t2.t11 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) false)) :rule trans :premises (t7068.t2.t5 t7068.t2.t10))
% 32.29/32.53 (step t7068.t2.t12 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t7068.t2.t2 t7068.t2.t11))
% 32.29/32.53 (step t7068.t2 (cl (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule subproof :discharge (t7068.t2.a0 t7068.t2.a1))
% 32.29/32.53 (step t7068.t3 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7068.t4 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7068.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t7068.t2 t7068.t3 t7068.t4))
% 32.29/32.53 (step t7068.t6 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule reordering :premises (t7068.t5))
% 32.29/32.53 (step t7068.t7 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule contraction :premises (t7068.t6))
% 32.29/32.53 (step t7068.t8 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t7068.t1 t7068.t7))
% 32.29/32.53 (step t7068.t9 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t7068.t10 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t7068.t8 t7068.t9))
% 32.29/32.53 (step t7068.t11 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule contraction :premises (t7068.t10))
% 32.29/32.53 (step t7068.t12 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies :premises (t7068.t11))
% 32.29/32.53 (step t7068.t13 (cl (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule and_neg)
% 32.29/32.53 (step t7068.t14 (cl (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t7068.t13 t7068.a0 t7068.a1))
% 32.29/32.53 (step t7068.t15 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t7068.t12 t7068.t14))
% 32.29/32.53 (step t7068 (cl (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule subproof :discharge (t7068.a0 t7068.a1))
% 32.29/32.53 (step t7069 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7070 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7071 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t7068 t7069 t7070))
% 32.29/32.53 (step t7072 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule reordering :premises (t7071))
% 32.29/32.53 (step t7073 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule contraction :premises (t7072))
% 32.29/32.53 (step t7074 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t7067 t7073))
% 32.29/32.53 (step t7075 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t7076 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t7074 t7075))
% 32.29/32.53 (step t7077 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule contraction :premises (t7076))
% 32.29/32.53 (step t7078 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies :premises (t7077))
% 32.29/32.53 (step t7079 (cl (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t7066 t7078))
% 32.29/32.53 (step t7080 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (not (= tptp.e10 tptp.e14))))) :rule or_neg)
% 32.29/32.53 (step t7081 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))))) :rule or_neg)
% 32.29/32.53 (step t7082 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule or_neg)
% 32.29/32.53 (step t7083 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t7079 t7080 t7081 t7082))
% 32.29/32.53 (step t7084 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule contraction :premises (t7083))
% 32.29/32.53 (step t7085 (cl (or (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t7053 t7065 t7084))
% 32.29/32.53 (step t7086 (cl (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)))) :rule or :premises (t7085))
% 32.29/32.53 (step t7087 (cl (= tptp.e10 tptp.e14) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule reordering :premises (t7086))
% 32.29/32.53 (step t7088 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t7052 t7087 t5162))
% 32.29/32.53 (step t7089 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))) :rule contraction :premises (t7088))
% 32.29/32.53 (step t7090 (cl (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule and :premises (t1107))
% 32.29/32.53 (step t7091 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t7090))
% 32.29/32.53 (step t7092 (cl (not (= (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))))) (not (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.53 (step t7093 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.53 (step t7094 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv1 :premises (t7093))
% 32.29/32.53 (step t7095 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))))) :rule all_simplify)
% 32.29/32.53 (step t7096 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) :rule refl)
% 32.29/32.53 (step t7097 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.29/32.53 (step t7098 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t7096 t7097))
% 32.29/32.53 (step t7099 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) true)) :rule all_simplify)
% 32.29/32.53 (step t7100 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) true)) :rule trans :premises (t7098 t7099))
% 32.29/32.53 (step t7101 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) true)) :rule trans :premises (t7095 t7100))
% 32.29/32.53 (step t7102 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t7094 t7101))
% 32.29/32.53 (step t7103 (cl (= (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))))) :rule cong :premises (t5011 t7102 t1965))
% 32.29/32.53 (step t7104 (cl (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) :rule and_neg)
% 32.29/32.53 (step t7105 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7106)
% 32.29/32.53 (assume t7106.a0 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.53 (assume t7106.a1 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))
% 32.29/32.53 (step t7106.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7106.t2)
% 32.29/32.53 (assume t7106.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))
% 32.29/32.53 (assume t7106.t2.a1 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.53 (step t7106.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) false) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.53 (step t7106.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) false)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv1 :premises (t7106.t2.t1))
% 32.29/32.53 (step t7106.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14)) :rule symm :premises (t7106.t2.a1))
% 32.29/32.53 (step t7106.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) :rule symm :premises (t7106.t2.t3))
% 32.29/32.53 (step t7106.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) :rule refl)
% 32.29/32.53 (step t7106.t2.t6 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) :rule cong :premises (t7106.t2.t4 t7106.t2.t5))
% 32.29/32.53 (step t7106.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) false) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.53 (step t7106.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv2 :premises (t7106.t2.t7))
% 32.29/32.53 (step t7106.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) :rule not_not)
% 32.29/32.53 (step t7106.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) false) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) :rule resolution :premises (t7106.t2.t8 t7106.t2.t9))
% 32.29/32.53 (step t7106.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) false)) :rule resolution :premises (t7106.t2.t10 t7106.t2.a0))
% 32.29/32.53 (step t7106.t2.t12 (cl (= (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) false)) :rule trans :premises (t7106.t2.t6 t7106.t2.t11))
% 32.29/32.53 (step t7106.t2.t13 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t7106.t2.t2 t7106.t2.t12))
% 32.29/32.53 (step t7106.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule subproof :discharge (t7106.t2.a0 t7106.t2.a1))
% 32.29/32.53 (step t7106.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) :rule and_pos)
% 32.29/32.53 (step t7106.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7106.t5 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t7106.t2 t7106.t3 t7106.t4))
% 32.29/32.53 (step t7106.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule reordering :premises (t7106.t5))
% 32.29/32.53 (step t7106.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule contraction :premises (t7106.t6))
% 32.29/32.53 (step t7106.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t7106.t1 t7106.t7))
% 32.29/32.53 (step t7106.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t7106.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t7106.t8 t7106.t9))
% 32.29/32.53 (step t7106.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t7106.t10))
% 32.29/32.53 (step t7106.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies :premises (t7106.t11))
% 32.29/32.53 (step t7106.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.53 (step t7106.t14 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t7106.t13 t7106.a1 t7106.a0))
% 32.29/32.53 (step t7106.t15 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t7106.t12 t7106.t14))
% 32.29/32.53 (step t7106 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule subproof :discharge (t7106.a0 t7106.a1))
% 32.29/32.53 (step t7107 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7108 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) :rule and_pos)
% 32.29/32.53 (step t7109 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))))) :rule resolution :premises (t7106 t7107 t7108))
% 32.29/32.53 (step t7110 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule reordering :premises (t7109))
% 32.29/32.53 (step t7111 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule contraction :premises (t7110))
% 32.29/32.53 (step t7112 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t7105 t7111))
% 32.29/32.53 (step t7113 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg2)
% 32.29/32.53 (step t7114 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (=> (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t7112 t7113))
% 32.29/32.53 (step t7115 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t7114))
% 32.29/32.53 (step t7116 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies :premises (t7115))
% 32.29/32.53 (step t7117 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t7104 t7116))
% 32.29/32.53 (step t7118 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.53 (step t7119 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))))) :rule or_neg)
% 32.29/32.53 (step t7120 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule or_neg)
% 32.29/32.53 (step t7121 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t7117 t7118 t7119 t7120))
% 32.29/32.53 (step t7122 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t7121))
% 32.29/32.53 (step t7123 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t7092 t7103 t7122))
% 32.29/32.53 (step t7124 (cl (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)))) :rule or :premises (t7123))
% 32.29/32.53 (step t7125 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t7124))
% 32.29/32.53 (step t7126 (cl (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e11)))) :rule and :premises (t1360))
% 32.29/32.53 (step t7127 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t7089 t7091 t7125 t7126))
% 32.29/32.53 (step t7128 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) :rule contraction :premises (t7127))
% 32.29/32.53 (step t7129 (cl (or (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule and :premises (t1107))
% 32.29/32.53 (step t7130 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule or :premises (t7129))
% 32.29/32.53 (step t7131 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.53 (step t7132 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.53 (step t7133 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule equiv1 :premises (t7132))
% 32.29/32.53 (step t7134 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))))) :rule all_simplify)
% 32.29/32.53 (step t7135 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule refl)
% 32.29/32.53 (step t7136 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.29/32.53 (step t7137 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule cong :premises (t7135 t7136))
% 32.29/32.53 (step t7138 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) true)) :rule all_simplify)
% 32.29/32.53 (step t7139 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) true)) :rule trans :premises (t7137 t7138))
% 32.29/32.53 (step t7140 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) true)) :rule trans :premises (t7134 t7139))
% 32.29/32.53 (step t7141 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7133 t7140))
% 32.29/32.53 (step t7142 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))))) :rule cong :premises (t5269 t7141 t4957))
% 32.29/32.53 (step t7143 (cl (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule and_neg)
% 32.29/32.53 (step t7144 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7145)
% 32.29/32.53 (assume t7145.a0 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.53 (assume t7145.a1 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))
% 32.29/32.53 (step t7145.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7145.t2)
% 32.29/32.53 (assume t7145.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))
% 32.29/32.53 (assume t7145.t2.a1 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.53 (step t7145.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) false) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.53 (step t7145.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) false)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule equiv1 :premises (t7145.t2.t1))
% 32.29/32.53 (step t7145.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e11)) :rule symm :premises (t7145.t2.a1))
% 32.29/32.53 (step t7145.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) :rule symm :premises (t7145.t2.t3))
% 32.29/32.53 (step t7145.t2.t5 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) :rule refl)
% 32.29/32.53 (step t7145.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule cong :premises (t7145.t2.t4 t7145.t2.t5))
% 32.29/32.53 (step t7145.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) false) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.53 (step t7145.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv2 :premises (t7145.t2.t7))
% 32.29/32.53 (step t7145.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) :rule not_not)
% 32.29/32.53 (step t7145.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) false) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) :rule resolution :premises (t7145.t2.t8 t7145.t2.t9))
% 32.29/32.53 (step t7145.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) false)) :rule resolution :premises (t7145.t2.t10 t7145.t2.a0))
% 32.29/32.53 (step t7145.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) false)) :rule trans :premises (t7145.t2.t6 t7145.t2.t11))
% 32.29/32.53 (step t7145.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7145.t2.t2 t7145.t2.t12))
% 32.29/32.53 (step t7145.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t7145.t2.a0 t7145.t2.a1))
% 32.29/32.53 (step t7145.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule and_pos)
% 32.29/32.53 (step t7145.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7145.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t7145.t2 t7145.t3 t7145.t4))
% 32.29/32.53 (step t7145.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t7145.t5))
% 32.29/32.53 (step t7145.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t7145.t6))
% 32.29/32.53 (step t7145.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7145.t1 t7145.t7))
% 32.29/32.53 (step t7145.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7145.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7145.t8 t7145.t9))
% 32.29/32.53 (step t7145.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t7145.t10))
% 32.29/32.53 (step t7145.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t7145.t11))
% 32.29/32.53 (step t7145.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.53 (step t7145.t14 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t7145.t13 t7145.a1 t7145.a0))
% 32.29/32.53 (step t7145.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7145.t12 t7145.t14))
% 32.29/32.53 (step t7145 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t7145.a0 t7145.a1))
% 32.29/32.53 (step t7146 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7147 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule and_pos)
% 32.29/32.53 (step t7148 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))))) :rule resolution :premises (t7145 t7146 t7147))
% 32.29/32.53 (step t7149 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t7148))
% 32.29/32.53 (step t7150 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t7149))
% 32.29/32.53 (step t7151 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7144 t7150))
% 32.29/32.53 (step t7152 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7153 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7151 t7152))
% 32.29/32.53 (step t7154 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t7153))
% 32.29/32.53 (step t7155 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t7154))
% 32.29/32.53 (step t7156 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7143 t7155))
% 32.29/32.53 (step t7157 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.53 (step t7158 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))))) :rule or_neg)
% 32.29/32.53 (step t7159 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule or_neg)
% 32.29/32.53 (step t7160 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7156 t7157 t7158 t7159))
% 32.29/32.53 (step t7161 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (not (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t7160))
% 32.29/32.53 (step t7162 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7131 t7142 t7161))
% 32.29/32.53 (step t7163 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule or :premises (t7162))
% 32.29/32.53 (step t7164 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t7163))
% 32.29/32.53 (step t7165 (cl (not (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.53 (step t7166 (cl (not (= (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (= tptp.e11 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))))) (not (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) (or (= tptp.e11 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.53 (step t7167 (cl (= (= (= (not (not (= tptp.e11 tptp.e14))) (= tptp.e11 tptp.e14)) true) (= (not (not (= tptp.e11 tptp.e14))) (= tptp.e11 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.53 (step t7168 (cl (not (= (= (not (not (= tptp.e11 tptp.e14))) (= tptp.e11 tptp.e14)) true)) (= (not (not (= tptp.e11 tptp.e14))) (= tptp.e11 tptp.e14))) :rule equiv1 :premises (t7167))
% 32.29/32.53 (step t7169 (cl (= (= (not (not (= tptp.e11 tptp.e14))) (= tptp.e11 tptp.e14)) (= (= tptp.e11 tptp.e14) (not (not (= tptp.e11 tptp.e14)))))) :rule all_simplify)
% 32.29/32.53 (step t7170 (cl (= (= tptp.e11 tptp.e14) (= tptp.e11 tptp.e14))) :rule refl)
% 32.29/32.53 (step t7171 (cl (= (not (not (= tptp.e11 tptp.e14))) (= tptp.e11 tptp.e14))) :rule all_simplify)
% 32.29/32.53 (step t7172 (cl (= (= (= tptp.e11 tptp.e14) (not (not (= tptp.e11 tptp.e14)))) (= (= tptp.e11 tptp.e14) (= tptp.e11 tptp.e14)))) :rule cong :premises (t7170 t7171))
% 32.29/32.53 (step t7173 (cl (= (= (= tptp.e11 tptp.e14) (= tptp.e11 tptp.e14)) true)) :rule all_simplify)
% 32.29/32.53 (step t7174 (cl (= (= (= tptp.e11 tptp.e14) (not (not (= tptp.e11 tptp.e14)))) true)) :rule trans :premises (t7172 t7173))
% 32.29/32.53 (step t7175 (cl (= (= (not (not (= tptp.e11 tptp.e14))) (= tptp.e11 tptp.e14)) true)) :rule trans :premises (t7169 t7174))
% 32.29/32.53 (step t7176 (cl (= (not (not (= tptp.e11 tptp.e14))) (= tptp.e11 tptp.e14))) :rule resolution :premises (t7168 t7175))
% 32.29/32.53 (step t7177 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))))) :rule refl)
% 32.29/32.53 (step t7178 (cl (= (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (= tptp.e11 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))))) :rule cong :premises (t7176 t7177 t4957))
% 32.29/32.53 (step t7179 (cl (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) :rule and_neg)
% 32.29/32.53 (step t7180 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7181)
% 32.29/32.53 (assume t7181.a0 (not (= tptp.e11 tptp.e14)))
% 32.29/32.53 (assume t7181.a1 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))
% 32.29/32.53 (step t7181.t1 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7181.t2)
% 32.29/32.53 (assume t7181.t2.a0 (not (= tptp.e11 tptp.e14)))
% 32.29/32.53 (assume t7181.t2.a1 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))
% 32.29/32.53 (step t7181.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) false) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.53 (step t7181.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) false)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule equiv1 :premises (t7181.t2.t1))
% 32.29/32.53 (step t7181.t2.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.53 (step t7181.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e12) tptp.e14)) :rule symm :premises (t7181.t2.a1))
% 32.29/32.53 (step t7181.t2.t5 (cl (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 tptp.e14))) :rule cong :premises (t7181.t2.t3 t7181.t2.t4))
% 32.29/32.53 (step t7181.t2.t6 (cl (= (= (= tptp.e11 tptp.e14) false) (not (= tptp.e11 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.53 (step t7181.t2.t7 (cl (= (= tptp.e11 tptp.e14) false) (not (not (= tptp.e11 tptp.e14)))) :rule equiv2 :premises (t7181.t2.t6))
% 32.29/32.53 (step t7181.t2.t8 (cl (not (not (not (= tptp.e11 tptp.e14)))) (= tptp.e11 tptp.e14)) :rule not_not)
% 32.29/32.53 (step t7181.t2.t9 (cl (= (= tptp.e11 tptp.e14) false) (= tptp.e11 tptp.e14)) :rule resolution :premises (t7181.t2.t7 t7181.t2.t8))
% 32.29/32.53 (step t7181.t2.t10 (cl (= (= tptp.e11 tptp.e14) false)) :rule resolution :premises (t7181.t2.t9 t7181.t2.a0))
% 32.29/32.53 (step t7181.t2.t11 (cl (= (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) false)) :rule trans :premises (t7181.t2.t5 t7181.t2.t10))
% 32.29/32.53 (step t7181.t2.t12 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7181.t2.t2 t7181.t2.t11))
% 32.29/32.53 (step t7181.t2 (cl (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t7181.t2.a0 t7181.t2.a1))
% 32.29/32.53 (step t7181.t3 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7181.t4 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7181.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7181.t2 t7181.t3 t7181.t4))
% 32.29/32.53 (step t7181.t6 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t7181.t5))
% 32.29/32.53 (step t7181.t7 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t7181.t6))
% 32.29/32.53 (step t7181.t8 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7181.t1 t7181.t7))
% 32.29/32.53 (step t7181.t9 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7181.t10 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7181.t8 t7181.t9))
% 32.29/32.53 (step t7181.t11 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t7181.t10))
% 32.29/32.53 (step t7181.t12 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t7181.t11))
% 32.29/32.53 (step t7181.t13 (cl (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) :rule and_neg)
% 32.29/32.53 (step t7181.t14 (cl (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7181.t13 t7181.a0 t7181.a1))
% 32.29/32.53 (step t7181.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7181.t12 t7181.t14))
% 32.29/32.53 (step t7181 (cl (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t7181.a0 t7181.a1))
% 32.29/32.53 (step t7182 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7183 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7184 (cl (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7181 t7182 t7183))
% 32.29/32.53 (step t7185 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t7184))
% 32.29/32.53 (step t7186 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t7185))
% 32.29/32.53 (step t7187 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7180 t7186))
% 32.29/32.53 (step t7188 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7189 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7187 t7188))
% 32.29/32.53 (step t7190 (cl (=> (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t7189))
% 32.29/32.53 (step t7191 (cl (not (and (not (= tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t7190))
% 32.29/32.53 (step t7192 (cl (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7179 t7191))
% 32.29/32.53 (step t7193 (cl (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (not (= tptp.e11 tptp.e14))))) :rule or_neg)
% 32.29/32.53 (step t7194 (cl (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))))) :rule or_neg)
% 32.29/32.53 (step t7195 (cl (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule or_neg)
% 32.29/32.53 (step t7196 (cl (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7192 t7193 t7194 t7195))
% 32.29/32.53 (step t7197 (cl (or (not (not (= tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t7196))
% 32.29/32.53 (step t7198 (cl (or (= tptp.e11 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7166 t7178 t7197))
% 32.29/32.53 (step t7199 (cl (= tptp.e11 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule or :premises (t7198))
% 32.29/32.53 (step t7200 (cl (= tptp.e11 tptp.e14) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t7199))
% 32.29/32.53 (step t7201 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7128 t7130 t7164 t7165 t7200 t1949))
% 32.29/32.53 (step t7202 (cl (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14)))) (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) :rule contraction :premises (t7201))
% 32.29/32.53 (step t7203 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule or :premises (t3824))
% 32.29/32.53 (step t7204 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule resolution :premises (t7203 t3829 t3835 t3838 t3841 t3847 t3889 t3931 t3934 t3937 t3940 t3943 t3946 t4367 t4369))
% 32.29/32.53 (step t7205 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule contraction :premises (t7204))
% 32.29/32.53 (step t7206 (cl (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t7205))
% 32.29/32.53 (step t7207 (cl (or (= tptp.e22 (tptp.h4 tptp.e10)) (= tptp.e22 (tptp.h4 tptp.e11)) (= tptp.e22 (tptp.h4 tptp.e12)) (= tptp.e22 (tptp.h4 tptp.e13)) (= tptp.e22 (tptp.h4 tptp.e14))) (not (= tptp.e22 (tptp.h4 tptp.e10)))) :rule or_neg)
% 32.29/32.53 (step t7208 (cl (or (= tptp.e20 (tptp.h4 tptp.e10)) (= tptp.e20 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.h4 tptp.e12)) (= tptp.e20 (tptp.h4 tptp.e13)) (= tptp.e20 (tptp.h4 tptp.e14))) (not (= tptp.e20 (tptp.h4 tptp.e13)))) :rule or_neg)
% 32.29/32.53 (step t7209 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t7210 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7211)
% 32.29/32.53 (assume t7211.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.53 (assume t7211.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.53 (assume t7211.a2 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t7211.a3 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t7211.a4 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.53 (assume t7211.a5 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t7211.a6 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.53 (assume t7211.a7 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7211.a8 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7211.a9 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7211.a10 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7211.a11 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t7211.t1 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7211.t2)
% 32.29/32.53 (assume t7211.t2.a0 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7211.t2.a1 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t7211.t2.a2 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t7211.t2.a3 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7211.t2.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7211.t2.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7211.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t7211.t2.a7 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.53 (assume t7211.t2.a8 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.53 (assume t7211.t2.a9 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.53 (assume t7211.t2.a10 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t7211.t2.a11 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.53 (step t7211.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) :rule symm :premises (t7211.t2.a11))
% 32.29/32.53 (step t7211.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.h4 tptp.e10))) :rule cong :premises (t7211.t2.t1))
% 32.29/32.53 (step t7211.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7211.t2.a10))
% 32.29/32.53 (step t7211.t2.t4 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7211.t2.t3))
% 32.29/32.53 (step t7211.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7211.t2.a4))
% 32.29/32.53 (step t7211.t2.t6 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.53 (step t7211.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) :rule cong :premises (t7211.t2.t5 t7211.t2.t6))
% 32.29/32.53 (step t7211.t2.t8 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7211.t2.a9))
% 32.29/32.53 (step t7211.t2.t9 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t7211.t2.a8))
% 32.29/32.53 (step t7211.t2.t10 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t7211.t2.t9))
% 32.29/32.53 (step t7211.t2.t11 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t7211.t2.a7))
% 32.29/32.53 (step t7211.t2.t12 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t7211.t2.t11))
% 32.29/32.53 (step t7211.t2.t13 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t7211.t2.t12))
% 32.29/32.53 (step t7211.t2.t14 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.53 (step t7211.t2.t15 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t7211.t2.t13 t7211.t2.t14))
% 32.29/32.53 (step t7211.t2.t16 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7211.t2.a6))
% 32.29/32.53 (step t7211.t2.t17 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7211.t2.t16))
% 32.29/32.53 (step t7211.t2.t18 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7211.t2.a5))
% 32.29/32.53 (step t7211.t2.t19 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7211.t2.t18))
% 32.29/32.53 (step t7211.t2.t20 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7211.t2.t5))
% 32.29/32.53 (step t7211.t2.t21 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7211.t2.t20 t7211.t2.a3))
% 32.29/32.53 (step t7211.t2.t22 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7211.t2.a0 t7211.t2.t21))
% 32.29/32.53 (step t7211.t2.t23 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7211.t2.a0))
% 32.29/32.53 (step t7211.t2.t24 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7211.t2.a3))
% 32.29/32.53 (step t7211.t2.t25 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7211.t2.t23 t7211.t2.t24))
% 32.29/32.53 (step t7211.t2.t26 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7211.t2.a2))
% 32.29/32.53 (step t7211.t2.t27 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7211.t2.t26))
% 32.29/32.53 (step t7211.t2.t28 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7211.t2.t19 t7211.t2.t22 t7211.t2.t25 t7211.t2.t27))
% 32.29/32.53 (step t7211.t2.t29 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7211.t2.t27))
% 32.29/32.53 (step t7211.t2.t30 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t7211.t2.t28 t7211.t2.t29))
% 32.29/32.53 (step t7211.t2.t31 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t7211.t2.t30 t7211.t2.t6))
% 32.29/32.53 (step t7211.t2.t32 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7211.t2.a1))
% 32.29/32.53 (step t7211.t2.t33 (cl (= tptp.e24 (tptp.h4 tptp.e12))) :rule trans :premises (t7211.t2.t17 t7211.t2.t31 t7211.t2.t32))
% 32.29/32.53 (step t7211.t2.t34 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule cong :premises (t7211.t2.a0 t7211.t2.t33))
% 32.29/32.53 (step t7211.t2.t35 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule trans :premises (t7211.t2.t2 t7211.t2.t4 t7211.t2.t7 t7211.t2.t8 t7211.t2.t10 t7211.t2.t15 t7211.t2.t34))
% 32.29/32.53 (step t7211.t2 (cl (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7211.t2.a0 t7211.t2.a1 t7211.t2.a2 t7211.t2.a3 t7211.t2.a4 t7211.t2.a5 t7211.t2.a6 t7211.t2.a7 t7211.t2.a8 t7211.t2.a9 t7211.t2.a10 t7211.t2.a11))
% 32.29/32.53 (step t7211.t3 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7211.t4 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7211.t5 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7211.t6 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7211.t7 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7211.t8 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t7211.t9 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7211.t10 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.53 (step t7211.t11 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t7211.t12 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7211.t13 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7211.t14 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7211.t15 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t7211.t2 t7211.t3 t7211.t4 t7211.t5 t7211.t6 t7211.t7 t7211.t8 t7211.t9 t7211.t10 t7211.t11 t7211.t12 t7211.t13 t7211.t14))
% 32.29/32.53 (step t7211.t16 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7211.t15))
% 32.29/32.53 (step t7211.t17 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7211.t16))
% 32.29/32.53 (step t7211.t18 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7211.t1 t7211.t17))
% 32.29/32.53 (step t7211.t19 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7211.t20 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7211.t18 t7211.t19))
% 32.29/32.53 (step t7211.t21 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7211.t20))
% 32.29/32.53 (step t7211.t22 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule implies :premises (t7211.t21))
% 32.29/32.53 (step t7211.t23 (cl (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule and_neg)
% 32.29/32.53 (step t7211.t24 (cl (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t7211.t23 t7211.a9 t7211.a3 t7211.a11 t7211.a10 t7211.a8 t7211.a7 t7211.a5 t7211.a1 t7211.a0 t7211.a6 t7211.a2 t7211.a4))
% 32.29/32.53 (step t7211.t25 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7211.t22 t7211.t24))
% 32.29/32.53 (step t7211 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7211.a0 t7211.a1 t7211.a2 t7211.a3 t7211.a4 t7211.a5 t7211.a6 t7211.a7 t7211.a8 t7211.a9 t7211.a10 t7211.a11))
% 32.29/32.53 (step t7212 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.53 (step t7213 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.53 (step t7214 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7215 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7216 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.53 (step t7217 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7218 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7219 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t7220 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7221 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7222 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7223 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7224 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7211 t7212 t7213 t7214 t7215 t7216 t7217 t7218 t7219 t7220 t7221 t7222 t7223))
% 32.29/32.53 (step t7225 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7224))
% 32.29/32.53 (step t7226 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7225))
% 32.29/32.53 (step t7227 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7210 t7226))
% 32.29/32.53 (step t7228 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.53 (step t7229 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7227 t7228))
% 32.29/32.53 (step t7230 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7229))
% 32.29/32.53 (step t7231 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule implies :premises (t7230))
% 32.29/32.53 (step t7232 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7209 t7231))
% 32.29/32.53 (step t7233 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7232))
% 32.29/32.53 (step t7234 (cl (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t7235 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7236)
% 32.29/32.53 (assume t7236.a0 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.53 (assume t7236.a1 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.53 (assume t7236.a2 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7236.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7236.a4 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7236.a5 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7236.a6 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t7236.t1 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7236.t2)
% 32.29/32.53 (assume t7236.t2.a0 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7236.t2.a1 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7236.t2.a2 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t7236.t2.a3 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7236.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7236.t2.a5 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.29/32.53 (assume t7236.t2.a6 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.53 (step t7236.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14)) :rule symm :premises (t7236.t2.a6))
% 32.29/32.53 (step t7236.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.h4 tptp.e14))) :rule cong :premises (t7236.t2.t1))
% 32.29/32.53 (step t7236.t2.t3 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7236.t2.a3))
% 32.29/32.53 (step t7236.t2.t4 (cl (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23)) :rule symm :premises (t7236.t2.a5))
% 32.29/32.53 (step t7236.t2.t5 (cl (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule symm :premises (t7236.t2.t4))
% 32.29/32.53 (step t7236.t2.t6 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7236.t2.a1))
% 32.29/32.53 (step t7236.t2.t7 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7236.t2.t6))
% 32.29/32.53 (step t7236.t2.t8 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7236.t2.t7 t7236.t2.a0))
% 32.29/32.53 (step t7236.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7236.t2.a4))
% 32.29/32.53 (step t7236.t2.t10 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7236.t2.t9))
% 32.29/32.53 (step t7236.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7236.t2.a3 t7236.t2.t8))
% 32.29/32.53 (step t7236.t2.t12 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7236.t2.a0))
% 32.29/32.53 (step t7236.t2.t13 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7236.t2.t3 t7236.t2.t12))
% 32.29/32.53 (step t7236.t2.t14 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7236.t2.a2))
% 32.29/32.53 (step t7236.t2.t15 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7236.t2.t14))
% 32.29/32.53 (step t7236.t2.t16 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7236.t2.t10 t7236.t2.t11 t7236.t2.t13 t7236.t2.t15))
% 32.29/32.53 (step t7236.t2.t17 (cl (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule cong :premises (t7236.t2.t8 t7236.t2.t16))
% 32.29/32.53 (step t7236.t2.t18 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule trans :premises (t7236.t2.t2 t7236.t2.t3 t7236.t2.t5 t7236.t2.t17))
% 32.29/32.53 (step t7236.t2 (cl (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t7236.t2.a0 t7236.t2.a1 t7236.t2.a2 t7236.t2.a3 t7236.t2.a4 t7236.t2.a5 t7236.t2.a6))
% 32.29/32.53 (step t7236.t3 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7236.t4 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7236.t5 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7236.t6 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7236.t7 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t7236.t8 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.53 (step t7236.t9 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7236.t10 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))))) :rule resolution :premises (t7236.t2 t7236.t3 t7236.t4 t7236.t5 t7236.t6 t7236.t7 t7236.t8 t7236.t9))
% 32.29/32.53 (step t7236.t11 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7236.t10))
% 32.29/32.53 (step t7236.t12 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule contraction :premises (t7236.t11))
% 32.29/32.53 (step t7236.t13 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7236.t1 t7236.t12))
% 32.29/32.53 (step t7236.t14 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.53 (step t7236.t15 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7236.t13 t7236.t14))
% 32.29/32.53 (step t7236.t16 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))))) :rule contraction :premises (t7236.t15))
% 32.29/32.53 (step t7236.t17 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule implies :premises (t7236.t16))
% 32.29/32.53 (step t7236.t18 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t7236.t19 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t7236.t18 t7236.a5 t7236.a3 t7236.a6 t7236.a4 t7236.a2 t7236.a1 t7236.a0))
% 32.29/32.53 (step t7236.t20 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7236.t17 t7236.t19))
% 32.29/32.53 (step t7236 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t7236.a0 t7236.a1 t7236.a2 t7236.a3 t7236.a4 t7236.a5 t7236.a6))
% 32.29/32.53 (step t7237 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7238 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.29/32.53 (step t7239 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.53 (step t7240 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.53 (step t7241 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.53 (step t7242 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.53 (step t7243 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.53 (step t7244 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7236 t7237 t7238 t7239 t7240 t7241 t7242 t7243))
% 32.29/32.53 (step t7245 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7244))
% 32.29/32.53 (step t7246 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule contraction :premises (t7245))
% 32.29/32.53 (step t7247 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7235 t7246))
% 32.29/32.53 (step t7248 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.53 (step t7249 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7247 t7248))
% 32.29/32.53 (step t7250 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))))) :rule contraction :premises (t7249))
% 32.29/32.53 (step t7251 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule implies :premises (t7250))
% 32.29/32.53 (step t7252 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7234 t7251))
% 32.29/32.53 (step t7253 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e13))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7252))
% 32.29/32.53 (step t7254 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.53 (step t7255 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7256)
% 32.29/32.53 (assume t7256.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t7256.a1 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t7256.a2 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.53 (assume t7256.a3 (= tptp.e10 tptp.unit1))
% 32.29/32.53 (assume t7256.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t7256.a5 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.53 (assume t7256.a6 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7256.a7 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7256.a8 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.53 (assume t7256.a9 (= tptp.e22 tptp.unit2))
% 32.29/32.53 (assume t7256.a10 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7256.a11 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7256.a12 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (step t7256.t1 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.53 (anchor :step t7256.t2)
% 32.29/32.53 (assume t7256.t2.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.53 (assume t7256.t2.a1 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.53 (assume t7256.t2.a2 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.53 (assume t7256.t2.a3 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.53 (assume t7256.t2.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.53 (assume t7256.t2.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.53 (assume t7256.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.53 (assume t7256.t2.a7 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.53 (assume t7256.t2.a8 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.53 (assume t7256.t2.a9 (= tptp.e22 tptp.unit2))
% 32.29/32.53 (assume t7256.t2.a10 (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)))
% 32.29/32.53 (assume t7256.t2.a11 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.53 (assume t7256.t2.a12 (= tptp.e10 tptp.unit1))
% 32.29/32.53 (step t7256.t2.t1 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.53 (step t7256.t2.t2 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7256.t2.a12))
% 32.29/32.53 (step t7256.t2.t3 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7256.t2.t2))
% 32.29/32.53 (step t7256.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.unit1))) :rule cong :premises (t7256.t2.t1 t7256.t2.t3))
% 32.29/32.53 (step t7256.t2.t5 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t7256.t2.a11))
% 32.29/32.53 (step t7256.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12)) :rule trans :premises (t7256.t2.t4 t7256.t2.t5))
% 32.29/32.53 (step t7256.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.h4 tptp.e12))) :rule cong :premises (t7256.t2.t6))
% 32.29/32.53 (step t7256.t2.t8 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7256.t2.a5))
% 32.29/32.53 (step t7256.t2.t9 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7256.t2.t8))
% 32.29/32.53 (step t7256.t2.t10 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7256.t2.a4))
% 32.29/32.53 (step t7256.t2.t11 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7256.t2.t10))
% 32.29/32.53 (step t7256.t2.t12 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7256.t2.t11 t7256.t2.a3))
% 32.29/32.53 (step t7256.t2.t13 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7256.t2.a2 t7256.t2.t12))
% 32.29/32.53 (step t7256.t2.t14 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7256.t2.a2))
% 32.29/32.53 (step t7256.t2.t15 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7256.t2.a3))
% 32.29/32.53 (step t7256.t2.t16 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7256.t2.t14 t7256.t2.t15))
% 32.29/32.53 (step t7256.t2.t17 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7256.t2.a1))
% 32.29/32.53 (step t7256.t2.t18 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7256.t2.t17))
% 32.29/32.53 (step t7256.t2.t19 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7256.t2.t9 t7256.t2.t13 t7256.t2.t16 t7256.t2.t18))
% 32.29/32.53 (step t7256.t2.t20 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7256.t2.t18))
% 32.29/32.53 (step t7256.t2.t21 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t7256.t2.t19 t7256.t2.t20))
% 32.29/32.53 (step t7256.t2.t22 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.53 (step t7256.t2.t23 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t7256.t2.t21 t7256.t2.t22))
% 32.29/32.53 (step t7256.t2.t24 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7256.t2.t23))
% 32.29/32.53 (step t7256.t2.t25 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7256.t2.a6))
% 32.29/32.53 (step t7256.t2.t26 (cl (= (tptp.op2 tptp.e24 tptp.unit2) tptp.e24)) :rule symm :premises (t7256.t2.a10))
% 32.29/32.53 (step t7256.t2.t27 (cl (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule symm :premises (t7256.t2.t26))
% 32.29/32.53 (step t7256.t2.t28 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.53 (step t7256.t2.t29 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t7256.t2.a9))
% 32.29/32.53 (step t7256.t2.t30 (cl (= (tptp.op2 tptp.e24 tptp.unit2) (tptp.op2 tptp.e24 tptp.e22))) :rule cong :premises (t7256.t2.t28 t7256.t2.t29))
% 32.29/32.53 (step t7256.t2.t31 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7256.t2.t25))
% 32.29/32.53 (step t7256.t2.t32 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7256.t2.a0))
% 32.29/32.53 (step t7256.t2.t33 (cl (= tptp.e24 (tptp.h4 tptp.e12))) :rule trans :premises (t7256.t2.t31 t7256.t2.t23 t7256.t2.t32))
% 32.29/32.53 (step t7256.t2.t34 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7256.t2.a8))
% 32.29/32.53 (step t7256.t2.t35 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7256.t2.t34))
% 32.29/32.53 (step t7256.t2.t36 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7256.t2.t11 t7256.t2.t22))
% 32.29/32.54 (step t7256.t2.t37 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7256.t2.a7))
% 32.29/32.54 (step t7256.t2.t38 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7256.t2.t37))
% 32.29/32.54 (step t7256.t2.t39 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7256.t2.t38))
% 32.29/32.54 (step t7256.t2.t40 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7256.t2.t35 t7256.t2.t36 t7256.t2.t39))
% 32.29/32.54 (step t7256.t2.t41 (cl (= (tptp.op2 tptp.e24 tptp.e22) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule cong :premises (t7256.t2.t33 t7256.t2.t40))
% 32.29/32.54 (step t7256.t2.t42 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule trans :premises (t7256.t2.t7 t7256.t2.a0 t7256.t2.t24 t7256.t2.t25 t7256.t2.t27 t7256.t2.t30 t7256.t2.t41))
% 32.29/32.54 (step t7256.t2 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7256.t2.a0 t7256.t2.a1 t7256.t2.a2 t7256.t2.a3 t7256.t2.a4 t7256.t2.a5 t7256.t2.a6 t7256.t2.a7 t7256.t2.a8 t7256.t2.a9 t7256.t2.a10 t7256.t2.a11 t7256.t2.a12))
% 32.29/32.54 (step t7256.t3 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7256.t4 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7256.t5 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7256.t6 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7256.t7 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7256.t8 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7256.t9 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7256.t10 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7256.t11 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7256.t12 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7256.t13 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7256.t14 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7256.t15 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7256.t16 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t7256.t2 t7256.t3 t7256.t4 t7256.t5 t7256.t6 t7256.t7 t7256.t8 t7256.t9 t7256.t10 t7256.t11 t7256.t12 t7256.t13 t7256.t14 t7256.t15))
% 32.29/32.54 (step t7256.t17 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7256.t16))
% 32.29/32.54 (step t7256.t18 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7256.t17))
% 32.29/32.54 (step t7256.t19 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7256.t1 t7256.t18))
% 32.29/32.54 (step t7256.t20 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7256.t21 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7256.t19 t7256.t20))
% 32.29/32.54 (step t7256.t22 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7256.t21))
% 32.29/32.54 (step t7256.t23 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule implies :premises (t7256.t22))
% 32.29/32.54 (step t7256.t24 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.54 (step t7256.t25 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7256.t24 t7256.a1 t7256.a12 t7256.a10 t7256.a11 t7256.a7 t7256.a6 t7256.a4 t7256.a0 t7256.a5 t7256.a9 t7256.a8 t7256.a2 t7256.a3))
% 32.29/32.54 (step t7256.t26 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7256.t23 t7256.t25))
% 32.29/32.54 (step t7256 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7256.a0 t7256.a1 t7256.a2 t7256.a3 t7256.a4 t7256.a5 t7256.a6 t7256.a7 t7256.a8 t7256.a9 t7256.a10 t7256.a11 t7256.a12))
% 32.29/32.54 (step t7257 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7258 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7259 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7260 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7261 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7262 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7263 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7264 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7265 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7266 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7267 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7268 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7269 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7270 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7256 t7257 t7258 t7259 t7260 t7261 t7262 t7263 t7264 t7265 t7266 t7267 t7268 t7269))
% 32.29/32.54 (step t7271 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7270))
% 32.29/32.54 (step t7272 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7271))
% 32.29/32.54 (step t7273 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7255 t7272))
% 32.29/32.54 (step t7274 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7275 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7273 t7274))
% 32.29/32.54 (step t7276 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7275))
% 32.29/32.54 (step t7277 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule implies :premises (t7276))
% 32.29/32.54 (step t7278 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7254 t7277))
% 32.29/32.54 (step t7279 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e24 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7278))
% 32.29/32.54 (step t7280 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.54 (step t7281 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7282)
% 32.29/32.54 (assume t7282.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7282.a1 (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))
% 32.29/32.54 (assume t7282.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7282.a3 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7282.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7282.a5 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))
% 32.29/32.54 (assume t7282.a6 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7282.a7 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7282.a8 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (step t7282.t1 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7282.t2)
% 32.29/32.54 (assume t7282.t2.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7282.t2.a1 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7282.t2.a2 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7282.t2.a3 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7282.t2.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7282.t2.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7282.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7282.t2.a7 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))
% 32.29/32.54 (assume t7282.t2.a8 (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))
% 32.29/32.54 (step t7282.t2.t1 (cl (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13)) :rule symm :premises (t7282.t2.a8))
% 32.29/32.54 (step t7282.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.h4 tptp.e13))) :rule cong :premises (t7282.t2.t1))
% 32.29/32.54 (step t7282.t2.t3 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7282.t2.a1))
% 32.29/32.54 (step t7282.t2.t4 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7282.t2.t3))
% 32.29/32.54 (step t7282.t2.t5 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7282.t2.t4))
% 32.29/32.54 (step t7282.t2.t6 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7282.t2.a2))
% 32.29/32.54 (step t7282.t2.t7 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7282.t2.a3))
% 32.29/32.54 (step t7282.t2.t8 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7282.t2.t6 t7282.t2.t7))
% 32.29/32.54 (step t7282.t2.t9 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule symm :premises (t7282.t2.t8))
% 32.29/32.54 (step t7282.t2.t10 (cl (= tptp.e23 (tptp.h4 tptp.e14))) :rule symm :premises (t7282.t2.t6))
% 32.29/32.54 (step t7282.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7282.t2.a4))
% 32.29/32.54 (step t7282.t2.t12 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7282.t2.t11))
% 32.29/32.54 (step t7282.t2.t13 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7282.t2.t12 t7282.t2.a3))
% 32.29/32.54 (step t7282.t2.t14 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7282.t2.t10 t7282.t2.t13))
% 32.29/32.54 (step t7282.t2.t15 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7282.t2.t14))
% 32.29/32.54 (step t7282.t2.t16 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7282.t2.a5))
% 32.29/32.54 (step t7282.t2.t17 (cl (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20)) :rule symm :premises (t7282.t2.a7))
% 32.29/32.54 (step t7282.t2.t18 (cl (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule symm :premises (t7282.t2.t17))
% 32.29/32.54 (step t7282.t2.t19 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7282.t2.a6))
% 32.29/32.54 (step t7282.t2.t20 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7282.t2.t19))
% 32.29/32.54 (step t7282.t2.t21 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7282.t2.t16))
% 32.29/32.54 (step t7282.t2.t22 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7282.t2.t21 t7282.t2.t14 t7282.t2.t8 t7282.t2.t4))
% 32.29/32.54 (step t7282.t2.t23 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t7282.t2.t22 t7282.t2.t5))
% 32.29/32.54 (step t7282.t2.t24 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7282.t2.t25 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t7282.t2.t23 t7282.t2.t24))
% 32.29/32.54 (step t7282.t2.t26 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7282.t2.a0))
% 32.29/32.54 (step t7282.t2.t27 (cl (= tptp.e24 (tptp.h4 tptp.e12))) :rule trans :premises (t7282.t2.t20 t7282.t2.t25 t7282.t2.t26))
% 32.29/32.54 (step t7282.t2.t28 (cl (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule cong :premises (t7282.t2.t27 t7282.t2.t10))
% 32.29/32.54 (step t7282.t2.t29 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule trans :premises (t7282.t2.t2 t7282.t2.t5 t7282.t2.t9 t7282.t2.t15 t7282.t2.t16 t7282.t2.t18 t7282.t2.t28))
% 32.29/32.54 (step t7282.t2 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t7282.t2.a0 t7282.t2.a1 t7282.t2.a2 t7282.t2.a3 t7282.t2.a4 t7282.t2.a5 t7282.t2.a6 t7282.t2.a7 t7282.t2.a8))
% 32.29/32.54 (step t7282.t3 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7282.t4 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7282.t5 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7282.t6 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7282.t7 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7282.t8 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7282.t9 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7282.t10 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7282.t11 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7282.t12 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t7282.t2 t7282.t3 t7282.t4 t7282.t5 t7282.t6 t7282.t7 t7282.t8 t7282.t9 t7282.t10 t7282.t11))
% 32.29/32.54 (step t7282.t13 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule reordering :premises (t7282.t12))
% 32.29/32.54 (step t7282.t14 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule contraction :premises (t7282.t13))
% 32.29/32.54 (step t7282.t15 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule resolution :premises (t7282.t1 t7282.t14))
% 32.29/32.54 (step t7282.t16 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.54 (step t7282.t17 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))))) :rule resolution :premises (t7282.t15 t7282.t16))
% 32.29/32.54 (step t7282.t18 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))))) :rule contraction :premises (t7282.t17))
% 32.29/32.54 (step t7282.t19 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule implies :premises (t7282.t18))
% 32.29/32.54 (step t7282.t20 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule and_neg)
% 32.29/32.54 (step t7282.t21 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t7282.t20 t7282.a0 t7282.a8 t7282.a6 t7282.a7 t7282.a4 t7282.a3 t7282.a2 t7282.a5 t7282.a1))
% 32.29/32.54 (step t7282.t22 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule resolution :premises (t7282.t19 t7282.t21))
% 32.29/32.54 (step t7282 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t7282.a0 t7282.a1 t7282.a2 t7282.a3 t7282.a4 t7282.a5 t7282.a6 t7282.a7 t7282.a8))
% 32.29/32.54 (step t7283 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7284 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7285 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7286 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7287 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7288 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7289 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7290 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7291 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7292 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7282 t7283 t7284 t7285 t7286 t7287 t7288 t7289 t7290 t7291))
% 32.29/32.54 (step t7293 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule reordering :premises (t7292))
% 32.29/32.54 (step t7294 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule contraction :premises (t7293))
% 32.29/32.54 (step t7295 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule resolution :premises (t7281 t7294))
% 32.29/32.54 (step t7296 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.54 (step t7297 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))))) :rule resolution :premises (t7295 t7296))
% 32.29/32.54 (step t7298 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))))) :rule contraction :premises (t7297))
% 32.29/32.54 (step t7299 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule implies :premises (t7298))
% 32.29/32.54 (step t7300 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14)))) :rule resolution :premises (t7280 t7299))
% 32.29/32.54 (step t7301 (cl (= (tptp.h4 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e12) (tptp.h4 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7300))
% 32.29/32.54 (step t7302 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.54 (step t7303 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7304)
% 32.29/32.54 (assume t7304.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7304.a1 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7304.a2 (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))
% 32.29/32.54 (assume t7304.a3 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7304.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7304.a5 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7304.a6 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7304.a7 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7304.a8 (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))
% 32.29/32.54 (assume t7304.a9 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7304.a10 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7304.a11 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7304.a12 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (step t7304.t1 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7304.t2)
% 32.29/32.54 (assume t7304.t2.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7304.t2.a1 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7304.t2.a2 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7304.t2.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7304.t2.a4 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7304.t2.a5 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7304.t2.a6 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7304.t2.a7 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7304.t2.a8 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7304.t2.a9 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7304.t2.a10 (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)))
% 32.29/32.54 (assume t7304.t2.a11 (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))
% 32.29/32.54 (assume t7304.t2.a12 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (step t7304.t2.t1 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7304.t2.a12))
% 32.29/32.54 (step t7304.t2.t2 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7304.t2.t1))
% 32.29/32.54 (step t7304.t2.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.54 (step t7304.t2.t4 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.unit1 tptp.e12))) :rule cong :premises (t7304.t2.t2 t7304.t2.t3))
% 32.29/32.54 (step t7304.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e12) tptp.e12)) :rule symm :premises (t7304.t2.a11))
% 32.29/32.54 (step t7304.t2.t6 (cl (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12)) :rule trans :premises (t7304.t2.t4 t7304.t2.t5))
% 32.29/32.54 (step t7304.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.h4 tptp.e12))) :rule cong :premises (t7304.t2.t6))
% 32.29/32.54 (step t7304.t2.t8 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7304.t2.a7))
% 32.29/32.54 (step t7304.t2.t9 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7304.t2.t8))
% 32.29/32.54 (step t7304.t2.t10 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7304.t2.a2))
% 32.29/32.54 (step t7304.t2.t11 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7304.t2.t10))
% 32.29/32.54 (step t7304.t2.t12 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7304.t2.t11 t7304.t2.a1))
% 32.29/32.54 (step t7304.t2.t13 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7304.t2.a6 t7304.t2.t12))
% 32.29/32.54 (step t7304.t2.t14 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7304.t2.a6))
% 32.29/32.54 (step t7304.t2.t15 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7304.t2.a1))
% 32.29/32.54 (step t7304.t2.t16 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7304.t2.t14 t7304.t2.t15))
% 32.29/32.54 (step t7304.t2.t17 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7304.t2.a5))
% 32.29/32.54 (step t7304.t2.t18 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7304.t2.t17))
% 32.29/32.54 (step t7304.t2.t19 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7304.t2.t9 t7304.t2.t13 t7304.t2.t16 t7304.t2.t18))
% 32.29/32.54 (step t7304.t2.t20 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7304.t2.t18))
% 32.29/32.54 (step t7304.t2.t21 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t7304.t2.t19 t7304.t2.t20))
% 32.29/32.54 (step t7304.t2.t22 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7304.t2.t23 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t7304.t2.t21 t7304.t2.t22))
% 32.29/32.54 (step t7304.t2.t24 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7304.t2.t23))
% 32.29/32.54 (step t7304.t2.t25 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7304.t2.a8))
% 32.29/32.54 (step t7304.t2.t26 (cl (= (tptp.op2 tptp.unit2 tptp.e24) tptp.e24)) :rule symm :premises (t7304.t2.a10))
% 32.29/32.54 (step t7304.t2.t27 (cl (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule symm :premises (t7304.t2.t26))
% 32.29/32.54 (step t7304.t2.t28 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t7304.t2.a9))
% 32.29/32.54 (step t7304.t2.t29 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.54 (step t7304.t2.t30 (cl (= (tptp.op2 tptp.unit2 tptp.e24) (tptp.op2 tptp.e22 tptp.e24))) :rule cong :premises (t7304.t2.t28 t7304.t2.t29))
% 32.29/32.54 (step t7304.t2.t31 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7304.t2.a3))
% 32.29/32.54 (step t7304.t2.t32 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7304.t2.t31))
% 32.29/32.54 (step t7304.t2.t33 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7304.t2.t11 t7304.t2.t22))
% 32.29/32.54 (step t7304.t2.t34 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7304.t2.a0))
% 32.29/32.54 (step t7304.t2.t35 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7304.t2.t34))
% 32.29/32.54 (step t7304.t2.t36 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7304.t2.t35))
% 32.29/32.54 (step t7304.t2.t37 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7304.t2.t32 t7304.t2.t33 t7304.t2.t36))
% 32.29/32.54 (step t7304.t2.t38 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7304.t2.t25))
% 32.29/32.54 (step t7304.t2.t39 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7304.t2.a4))
% 32.29/32.54 (step t7304.t2.t40 (cl (= tptp.e24 (tptp.h4 tptp.e12))) :rule trans :premises (t7304.t2.t38 t7304.t2.t23 t7304.t2.t39))
% 32.29/32.54 (step t7304.t2.t41 (cl (= (tptp.op2 tptp.e22 tptp.e24) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule cong :premises (t7304.t2.t37 t7304.t2.t40))
% 32.29/32.54 (step t7304.t2.t42 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule trans :premises (t7304.t2.t7 t7304.t2.a4 t7304.t2.t24 t7304.t2.t25 t7304.t2.t27 t7304.t2.t30 t7304.t2.t41))
% 32.29/32.54 (step t7304.t2 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7304.t2.a0 t7304.t2.a1 t7304.t2.a2 t7304.t2.a3 t7304.t2.a4 t7304.t2.a5 t7304.t2.a6 t7304.t2.a7 t7304.t2.a8 t7304.t2.a9 t7304.t2.a10 t7304.t2.a11 t7304.t2.a12))
% 32.29/32.54 (step t7304.t3 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7304.t4 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7304.t5 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7304.t6 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7304.t7 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7304.t8 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7304.t9 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7304.t10 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7304.t11 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7304.t12 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7304.t13 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule and_pos)
% 32.29/32.54 (step t7304.t14 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule and_pos)
% 32.29/32.54 (step t7304.t15 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7304.t16 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t7304.t2 t7304.t3 t7304.t4 t7304.t5 t7304.t6 t7304.t7 t7304.t8 t7304.t9 t7304.t10 t7304.t11 t7304.t12 t7304.t13 t7304.t14 t7304.t15))
% 32.29/32.54 (step t7304.t17 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7304.t16))
% 32.29/32.54 (step t7304.t18 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7304.t17))
% 32.29/32.54 (step t7304.t19 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7304.t1 t7304.t18))
% 32.29/32.54 (step t7304.t20 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7304.t21 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7304.t19 t7304.t20))
% 32.29/32.54 (step t7304.t22 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7304.t21))
% 32.29/32.54 (step t7304.t23 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule implies :premises (t7304.t22))
% 32.29/32.54 (step t7304.t24 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.54 (step t7304.t25 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7304.t24 t7304.a0 t7304.a11 t7304.a7 t7304.a5 t7304.a1 t7304.a12 t7304.a10 t7304.a6 t7304.a4 t7304.a9 t7304.a8 t7304.a2 t7304.a3))
% 32.29/32.54 (step t7304.t26 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7304.t23 t7304.t25))
% 32.29/32.54 (step t7304 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7304.a0 t7304.a1 t7304.a2 t7304.a3 t7304.a4 t7304.a5 t7304.a6 t7304.a7 t7304.a8 t7304.a9 t7304.a10 t7304.a11 t7304.a12))
% 32.29/32.54 (step t7305 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7306 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7307 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule and_pos)
% 32.29/32.54 (step t7308 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7309 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7310 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7311 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7312 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7313 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) :rule and_pos)
% 32.29/32.54 (step t7314 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7315 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7316 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7317 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7318 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7304 t7305 t7306 t7307 t7308 t7309 t7310 t7311 t7312 t7313 t7314 t7315 t7316 t7317))
% 32.29/32.54 (step t7319 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7318))
% 32.29/32.54 (step t7320 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7319))
% 32.29/32.54 (step t7321 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7303 t7320))
% 32.29/32.54 (step t7322 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7323 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7321 t7322))
% 32.29/32.54 (step t7324 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7323))
% 32.29/32.54 (step t7325 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule implies :premises (t7324))
% 32.29/32.54 (step t7326 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7302 t7325))
% 32.29/32.54 (step t7327 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.unit2 tptp.e24))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7326))
% 32.29/32.54 (step t7328 (cl (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule and :premises (t1380))
% 32.29/32.54 (step t7329 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.54 (step t7330 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7331)
% 32.29/32.54 (assume t7331.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.54 (assume t7331.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.54 (assume t7331.a2 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7331.a3 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))
% 32.29/32.54 (assume t7331.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7331.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7331.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7331.a7 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7331.a8 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7331.a9 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (step t7331.t1 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7331.t2)
% 32.29/32.54 (assume t7331.t2.a0 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7331.t2.a1 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7331.t2.a2 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7331.t2.a3 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7331.t2.a4 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7331.t2.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7331.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7331.t2.a7 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.54 (assume t7331.t2.a8 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.54 (assume t7331.t2.a9 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))
% 32.29/32.54 (step t7331.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13)) :rule symm :premises (t7331.t2.a9))
% 32.29/32.54 (step t7331.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.h4 tptp.e13))) :rule cong :premises (t7331.t2.t1))
% 32.29/32.54 (step t7331.t2.t3 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7331.t2.a3))
% 32.29/32.54 (step t7331.t2.t4 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7331.t2.t3))
% 32.29/32.54 (step t7331.t2.t5 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7331.t2.t4))
% 32.29/32.54 (step t7331.t2.t6 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7331.t2.a4))
% 32.29/32.54 (step t7331.t2.t7 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7331.t2.a0))
% 32.29/32.54 (step t7331.t2.t8 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7331.t2.t6 t7331.t2.t7))
% 32.29/32.54 (step t7331.t2.t9 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule symm :premises (t7331.t2.t8))
% 32.29/32.54 (step t7331.t2.t10 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7331.t2.a1))
% 32.29/32.54 (step t7331.t2.t11 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7331.t2.t10))
% 32.29/32.54 (step t7331.t2.t12 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7331.t2.t11 t7331.t2.a0))
% 32.29/32.54 (step t7331.t2.t13 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7331.t2.a4 t7331.t2.t12))
% 32.29/32.54 (step t7331.t2.t14 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7331.t2.t13))
% 32.29/32.54 (step t7331.t2.t15 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7331.t2.a5))
% 32.29/32.54 (step t7331.t2.t16 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t7331.t2.a8))
% 32.29/32.54 (step t7331.t2.t17 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t7331.t2.t16))
% 32.29/32.54 (step t7331.t2.t18 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t7331.t2.a7))
% 32.29/32.54 (step t7331.t2.t19 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.54 (step t7331.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t7331.t2.t18 t7331.t2.t19))
% 32.29/32.54 (step t7331.t2.t21 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7331.t2.a6))
% 32.29/32.54 (step t7331.t2.t22 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7331.t2.t21))
% 32.29/32.54 (step t7331.t2.t23 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7331.t2.t15))
% 32.29/32.54 (step t7331.t2.t24 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7331.t2.t23 t7331.t2.t13 t7331.t2.t8 t7331.t2.t4))
% 32.29/32.54 (step t7331.t2.t25 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t7331.t2.t24 t7331.t2.t5))
% 32.29/32.54 (step t7331.t2.t26 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7331.t2.t27 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t7331.t2.t25 t7331.t2.t26))
% 32.29/32.54 (step t7331.t2.t28 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7331.t2.a2))
% 32.29/32.54 (step t7331.t2.t29 (cl (= tptp.e24 (tptp.h4 tptp.e12))) :rule trans :premises (t7331.t2.t22 t7331.t2.t27 t7331.t2.t28))
% 32.29/32.54 (step t7331.t2.t30 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule cong :premises (t7331.t2.t12 t7331.t2.t29))
% 32.29/32.54 (step t7331.t2.t31 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule trans :premises (t7331.t2.t2 t7331.t2.t5 t7331.t2.t9 t7331.t2.t14 t7331.t2.t15 t7331.t2.t17 t7331.t2.t20 t7331.t2.t30))
% 32.29/32.54 (step t7331.t2 (cl (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7331.t2.a0 t7331.t2.a1 t7331.t2.a2 t7331.t2.a3 t7331.t2.a4 t7331.t2.a5 t7331.t2.a6 t7331.t2.a7 t7331.t2.a8 t7331.t2.a9))
% 32.29/32.54 (step t7331.t3 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7331.t4 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7331.t5 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7331.t6 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7331.t7 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7331.t8 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7331.t9 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7331.t10 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.54 (step t7331.t11 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.54 (step t7331.t12 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.54 (step t7331.t13 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t7331.t2 t7331.t3 t7331.t4 t7331.t5 t7331.t6 t7331.t7 t7331.t8 t7331.t9 t7331.t10 t7331.t11 t7331.t12))
% 32.29/32.54 (step t7331.t14 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7331.t13))
% 32.29/32.54 (step t7331.t15 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7331.t14))
% 32.29/32.54 (step t7331.t16 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7331.t1 t7331.t15))
% 32.29/32.54 (step t7331.t17 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7331.t18 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7331.t16 t7331.t17))
% 32.29/32.54 (step t7331.t19 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7331.t18))
% 32.29/32.54 (step t7331.t20 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule implies :premises (t7331.t19))
% 32.29/32.54 (step t7331.t21 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule and_neg)
% 32.29/32.54 (step t7331.t22 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t7331.t21 t7331.a8 t7331.a6 t7331.a2 t7331.a9 t7331.a7 t7331.a5 t7331.a4 t7331.a1 t7331.a0 t7331.a3))
% 32.29/32.54 (step t7331.t23 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7331.t20 t7331.t22))
% 32.29/32.54 (step t7331 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule subproof :discharge (t7331.a0 t7331.a1 t7331.a2 t7331.a3 t7331.a4 t7331.a5 t7331.a6 t7331.a7 t7331.a8 t7331.a9))
% 32.29/32.54 (step t7332 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.54 (step t7333 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.54 (step t7334 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7335 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.54 (step t7336 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7337 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7338 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7339 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7340 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7341 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7342 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7331 t7332 t7333 t7334 t7335 t7336 t7337 t7338 t7339 t7340 t7341))
% 32.29/32.54 (step t7343 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule reordering :premises (t7342))
% 32.29/32.54 (step t7344 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule contraction :premises (t7343))
% 32.29/32.54 (step t7345 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7330 t7344))
% 32.29/32.54 (step t7346 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7347 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))))) :rule resolution :premises (t7345 t7346))
% 32.29/32.54 (step t7348 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))))) :rule contraction :premises (t7347))
% 32.29/32.54 (step t7349 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule implies :premises (t7348))
% 32.29/32.54 (step t7350 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12)))) :rule resolution :premises (t7329 t7349))
% 32.29/32.54 (step t7351 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7350))
% 32.29/32.54 (step t7352 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.54 (step t7353 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7354)
% 32.29/32.54 (assume t7354.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7354.a1 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.54 (assume t7354.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7354.a3 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.54 (assume t7354.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7354.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7354.a6 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7354.a7 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7354.a8 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (step t7354.t1 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7354.t2)
% 32.29/32.54 (assume t7354.t2.a0 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7354.t2.a1 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7354.t2.a2 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.54 (assume t7354.t2.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7354.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7354.t2.a5 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7354.t2.a6 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7354.t2.a7 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7354.t2.a8 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.54 (step t7354.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12)) :rule symm :premises (t7354.t2.a8))
% 32.29/32.54 (step t7354.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.h4 tptp.e12))) :rule cong :premises (t7354.t2.t1))
% 32.29/32.54 (step t7354.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7354.t2.a7))
% 32.29/32.54 (step t7354.t2.t4 (cl (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule symm :premises (t7354.t2.t3))
% 32.29/32.54 (step t7354.t2.t5 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7354.t2.a6))
% 32.29/32.54 (step t7354.t2.t6 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7354.t2.t5))
% 32.29/32.54 (step t7354.t2.t7 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7354.t2.t6))
% 32.29/32.54 (step t7354.t2.t8 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7354.t2.a0))
% 32.29/32.54 (step t7354.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule symm :premises (t7354.t2.t8))
% 32.29/32.54 (step t7354.t2.t10 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7354.t2.a5 t7354.t2.t9))
% 32.29/32.54 (step t7354.t2.t11 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7354.t2.a5))
% 32.29/32.54 (step t7354.t2.t12 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7354.t2.a1))
% 32.29/32.54 (step t7354.t2.t13 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7354.t2.t12))
% 32.29/32.54 (step t7354.t2.t14 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7354.t2.t13 t7354.t2.t9))
% 32.29/32.54 (step t7354.t2.t15 (cl (= (tptp.h4 tptp.e11) tptp.e21)) :rule symm :premises (t7354.t2.t14))
% 32.29/32.54 (step t7354.t2.t16 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 tptp.e21))) :rule cong :premises (t7354.t2.t11 t7354.t2.t15))
% 32.29/32.54 (step t7354.t2.t17 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7354.t2.a4))
% 32.29/32.54 (step t7354.t2.t18 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7354.t2.t17))
% 32.29/32.54 (step t7354.t2.t19 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7354.t2.t18))
% 32.29/32.54 (step t7354.t2.t20 (cl (= (tptp.h4 tptp.e13) tptp.e20)) :rule trans :premises (t7354.t2.t7 t7354.t2.t10 t7354.t2.t16 t7354.t2.t19))
% 32.29/32.54 (step t7354.t2.t21 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e20)) :rule trans :premises (t7354.t2.t6 t7354.t2.t20))
% 32.29/32.54 (step t7354.t2.t22 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7354.t2.t23 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) :rule cong :premises (t7354.t2.t21 t7354.t2.t22))
% 32.29/32.54 (step t7354.t2.t24 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7354.t2.a3))
% 32.29/32.54 (step t7354.t2.t25 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7354.t2.t24))
% 32.29/32.54 (step t7354.t2.t26 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7354.t2.t25))
% 32.29/32.54 (step t7354.t2.t27 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t7354.t2.a2))
% 32.29/32.54 (step t7354.t2.t28 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t7354.t2.t27))
% 32.29/32.54 (step t7354.t2.t29 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule cong :premises (t7354.t2.t14 t7354.t2.t14))
% 32.29/32.54 (step t7354.t2.t30 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule trans :premises (t7354.t2.t2 t7354.t2.t4 t7354.t2.t23 t7354.t2.t26 t7354.t2.t28 t7354.t2.t29))
% 32.29/32.54 (step t7354.t2 (cl (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t7354.t2.a0 t7354.t2.a1 t7354.t2.a2 t7354.t2.a3 t7354.t2.a4 t7354.t2.a5 t7354.t2.a6 t7354.t2.a7 t7354.t2.a8))
% 32.29/32.54 (step t7354.t3 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7354.t4 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7354.t5 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7354.t6 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7354.t7 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7354.t8 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7354.t9 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7354.t10 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7354.t11 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7354.t12 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7354.t2 t7354.t3 t7354.t4 t7354.t5 t7354.t6 t7354.t7 t7354.t8 t7354.t9 t7354.t10 t7354.t11))
% 32.29/32.54 (step t7354.t13 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule reordering :premises (t7354.t12))
% 32.29/32.54 (step t7354.t14 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule contraction :premises (t7354.t13))
% 32.29/32.54 (step t7354.t15 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule resolution :premises (t7354.t1 t7354.t14))
% 32.29/32.54 (step t7354.t16 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.54 (step t7354.t17 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))))) :rule resolution :premises (t7354.t15 t7354.t16))
% 32.29/32.54 (step t7354.t18 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))))) :rule contraction :premises (t7354.t17))
% 32.29/32.54 (step t7354.t19 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule implies :premises (t7354.t18))
% 32.29/32.54 (step t7354.t20 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.29/32.54 (step t7354.t21 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7354.t20 t7354.a7 t7354.a5 t7354.a3 t7354.a2 t7354.a4 t7354.a6 t7354.a8 t7354.a0 t7354.a1))
% 32.29/32.54 (step t7354.t22 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule resolution :premises (t7354.t19 t7354.t21))
% 32.29/32.54 (step t7354 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t7354.a0 t7354.a1 t7354.a2 t7354.a3 t7354.a4 t7354.a5 t7354.a6 t7354.a7 t7354.a8))
% 32.29/32.54 (step t7355 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7356 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7357 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7358 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7359 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7360 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7361 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7362 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7363 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7364 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7354 t7355 t7356 t7357 t7358 t7359 t7360 t7361 t7362 t7363))
% 32.29/32.54 (step t7365 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule reordering :premises (t7364))
% 32.29/32.54 (step t7366 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule contraction :premises (t7365))
% 32.29/32.54 (step t7367 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule resolution :premises (t7353 t7366))
% 32.29/32.54 (step t7368 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.54 (step t7369 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))))) :rule resolution :premises (t7367 t7368))
% 32.29/32.54 (step t7370 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))))) :rule contraction :premises (t7369))
% 32.29/32.54 (step t7371 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule implies :premises (t7370))
% 32.29/32.54 (step t7372 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11)))) :rule resolution :premises (t7352 t7371))
% 32.29/32.54 (step t7373 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7372))
% 32.29/32.54 (step t7374 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.54 (step t7375 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7376)
% 32.29/32.54 (assume t7376.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7376.a1 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))
% 32.29/32.54 (assume t7376.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7376.a3 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.54 (assume t7376.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7376.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7376.a6 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7376.a7 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7376.a8 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (step t7376.t1 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7376.t2)
% 32.29/32.54 (assume t7376.t2.a0 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7376.t2.a1 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7376.t2.a2 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7376.t2.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7376.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7376.t2.a5 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.54 (assume t7376.t2.a6 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))
% 32.29/32.54 (assume t7376.t2.a7 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7376.t2.a8 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))
% 32.29/32.54 (step t7376.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12)) :rule symm :premises (t7376.t2.a8))
% 32.29/32.54 (step t7376.t2.t2 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.h4 tptp.e12))) :rule cong :premises (t7376.t2.t1))
% 32.29/32.54 (step t7376.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7376.t2.a7))
% 32.29/32.54 (step t7376.t2.t4 (cl (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule symm :premises (t7376.t2.t3))
% 32.29/32.54 (step t7376.t2.t5 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7376.t2.a1))
% 32.29/32.54 (step t7376.t2.t6 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7376.t2.t5))
% 32.29/32.54 (step t7376.t2.t7 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7376.t2.a4))
% 32.29/32.54 (step t7376.t2.t8 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7376.t2.t7))
% 32.29/32.54 (step t7376.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7376.t2.a3))
% 32.29/32.54 (step t7376.t2.t10 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7376.t2.t9))
% 32.29/32.54 (step t7376.t2.t11 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7376.t2.t10 t7376.t2.a2))
% 32.29/32.54 (step t7376.t2.t12 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7376.t2.a0 t7376.t2.t11))
% 32.29/32.54 (step t7376.t2.t13 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7376.t2.a0))
% 32.29/32.54 (step t7376.t2.t14 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7376.t2.a2))
% 32.29/32.54 (step t7376.t2.t15 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7376.t2.t13 t7376.t2.t14))
% 32.29/32.54 (step t7376.t2.t16 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7376.t2.t8 t7376.t2.t12 t7376.t2.t15 t7376.t2.t6))
% 32.29/32.54 (step t7376.t2.t17 (cl (= (tptp.h4 tptp.e13) tptp.e20)) :rule symm :premises (t7376.t2.t16))
% 32.29/32.54 (step t7376.t2.t18 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e20)) :rule trans :premises (t7376.t2.t6 t7376.t2.t17))
% 32.29/32.54 (step t7376.t2.t19 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7376.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.op2 tptp.e20 tptp.e23))) :rule cong :premises (t7376.t2.t18 t7376.t2.t19))
% 32.29/32.54 (step t7376.t2.t21 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7376.t2.a6))
% 32.29/32.54 (step t7376.t2.t22 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t7376.t2.t21))
% 32.29/32.54 (step t7376.t2.t23 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e24)) :rule symm :premises (t7376.t2.t22))
% 32.29/32.54 (step t7376.t2.t24 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e24)) :rule symm :premises (t7376.t2.a5))
% 32.29/32.54 (step t7376.t2.t25 (cl (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t7376.t2.t24))
% 32.29/32.54 (step t7376.t2.t26 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule cong :premises (t7376.t2.a0 t7376.t2.t16))
% 32.29/32.54 (step t7376.t2.t27 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule trans :premises (t7376.t2.t2 t7376.t2.t4 t7376.t2.t20 t7376.t2.t23 t7376.t2.t25 t7376.t2.t26))
% 32.29/32.54 (step t7376.t2 (cl (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t7376.t2.a0 t7376.t2.a1 t7376.t2.a2 t7376.t2.a3 t7376.t2.a4 t7376.t2.a5 t7376.t2.a6 t7376.t2.a7 t7376.t2.a8))
% 32.29/32.54 (step t7376.t3 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7376.t4 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7376.t5 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7376.t6 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7376.t7 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7376.t8 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.54 (step t7376.t9 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7376.t10 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7376.t11 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7376.t12 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t7376.t2 t7376.t3 t7376.t4 t7376.t5 t7376.t6 t7376.t7 t7376.t8 t7376.t9 t7376.t10 t7376.t11))
% 32.29/32.54 (step t7376.t13 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7376.t12))
% 32.29/32.54 (step t7376.t14 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule contraction :premises (t7376.t13))
% 32.29/32.54 (step t7376.t15 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7376.t1 t7376.t14))
% 32.29/32.54 (step t7376.t16 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.54 (step t7376.t17 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7376.t15 t7376.t16))
% 32.29/32.54 (step t7376.t18 (cl (=> (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))))) :rule contraction :premises (t7376.t17))
% 32.29/32.54 (step t7376.t19 (cl (not (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule implies :premises (t7376.t18))
% 32.29/32.54 (step t7376.t20 (cl (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule and_neg)
% 32.29/32.54 (step t7376.t21 (cl (and (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t7376.t20 t7376.a6 t7376.a8 t7376.a7 t7376.a5 t7376.a4 t7376.a3 t7376.a2 t7376.a0 t7376.a1))
% 32.29/32.54 (step t7376.t22 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7376.t19 t7376.t21))
% 32.29/32.54 (step t7376 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t7376.a0 t7376.a1 t7376.a2 t7376.a3 t7376.a4 t7376.a5 t7376.a6 t7376.a7 t7376.a8))
% 32.29/32.54 (step t7377 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7378 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7379 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7380 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.54 (step t7381 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7382 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7383 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7384 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7385 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7386 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7376 t7377 t7378 t7379 t7380 t7381 t7382 t7383 t7384 t7385))
% 32.29/32.54 (step t7387 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7386))
% 32.29/32.54 (step t7388 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule contraction :premises (t7387))
% 32.29/32.54 (step t7389 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7375 t7388))
% 32.29/32.54 (step t7390 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.54 (step t7391 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7389 t7390))
% 32.29/32.54 (step t7392 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))))) :rule contraction :premises (t7391))
% 32.29/32.54 (step t7393 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule implies :premises (t7392))
% 32.29/32.54 (step t7394 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7374 t7393))
% 32.29/32.54 (step t7395 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7394))
% 32.29/32.54 (step t7396 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2))) :rule and_neg)
% 32.29/32.54 (step t7397 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7398)
% 32.29/32.54 (assume t7398.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7398.a1 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.54 (assume t7398.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7398.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7398.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7398.a5 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.54 (assume t7398.a6 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (step t7398.t1 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7398.t2)
% 32.29/32.54 (assume t7398.t2.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7398.t2.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7398.t2.a2 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7398.t2.a3 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.54 (assume t7398.t2.a4 (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)))
% 32.29/32.54 (assume t7398.t2.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7398.t2.a6 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (step t7398.t2.t1 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.54 (step t7398.t2.t2 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7398.t2.a6))
% 32.29/32.54 (step t7398.t2.t3 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7398.t2.t2))
% 32.29/32.54 (step t7398.t2.t4 (cl (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.unit1))) :rule cong :premises (t7398.t2.t1 t7398.t2.t3))
% 32.29/32.54 (step t7398.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10)) :rule symm :premises (t7398.t2.a3))
% 32.29/32.54 (step t7398.t2.t6 (cl (= (tptp.op1 tptp.e10 tptp.e10) tptp.e10)) :rule trans :premises (t7398.t2.t4 t7398.t2.t5))
% 32.29/32.54 (step t7398.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.h4 tptp.e10))) :rule cong :premises (t7398.t2.t6))
% 32.29/32.54 (step t7398.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7398.t2.a0))
% 32.29/32.54 (step t7398.t2.t9 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7398.t2.t8))
% 32.29/32.54 (step t7398.t2.t10 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7398.t2.a5))
% 32.29/32.54 (step t7398.t2.t11 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7398.t2.t10))
% 32.29/32.54 (step t7398.t2.t12 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7398.t2.t13 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7398.t2.t11 t7398.t2.t12))
% 32.29/32.54 (step t7398.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7398.t2.t13))
% 32.29/32.54 (step t7398.t2.t15 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7398.t2.a2))
% 32.29/32.54 (step t7398.t2.t16 (cl (= (tptp.op2 tptp.e22 tptp.unit2) tptp.e22)) :rule symm :premises (t7398.t2.a4))
% 32.29/32.54 (step t7398.t2.t17 (cl (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule symm :premises (t7398.t2.t16))
% 32.29/32.54 (step t7398.t2.t18 (cl (= tptp.e22 tptp.e22)) :rule refl)
% 32.29/32.54 (step t7398.t2.t19 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t7398.t2.a1))
% 32.29/32.54 (step t7398.t2.t20 (cl (= (tptp.op2 tptp.e22 tptp.unit2) (tptp.op2 tptp.e22 tptp.e22))) :rule cong :premises (t7398.t2.t18 t7398.t2.t19))
% 32.29/32.54 (step t7398.t2.t21 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7398.t2.t15))
% 32.29/32.54 (step t7398.t2.t22 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7398.t2.t9))
% 32.29/32.54 (step t7398.t2.t23 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7398.t2.t21 t7398.t2.t13 t7398.t2.t22))
% 32.29/32.54 (step t7398.t2.t24 (cl (= (tptp.op2 tptp.e22 tptp.e22) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule cong :premises (t7398.t2.t23 t7398.t2.t23))
% 32.29/32.54 (step t7398.t2.t25 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule trans :premises (t7398.t2.t7 t7398.t2.t9 t7398.t2.t14 t7398.t2.t15 t7398.t2.t17 t7398.t2.t20 t7398.t2.t24))
% 32.29/32.54 (step t7398.t2 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7398.t2.a0 t7398.t2.a1 t7398.t2.a2 t7398.t2.a3 t7398.t2.a4 t7398.t2.a5 t7398.t2.a6))
% 32.29/32.54 (step t7398.t3 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7398.t4 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7398.t5 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7398.t6 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7398.t7 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7398.t8 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7398.t9 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7398.t10 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t7398.t2 t7398.t3 t7398.t4 t7398.t5 t7398.t6 t7398.t7 t7398.t8 t7398.t9))
% 32.29/32.54 (step t7398.t11 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7398.t10))
% 32.29/32.54 (step t7398.t12 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7398.t11))
% 32.29/32.54 (step t7398.t13 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7398.t1 t7398.t12))
% 32.29/32.54 (step t7398.t14 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7398.t15 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7398.t13 t7398.t14))
% 32.29/32.54 (step t7398.t16 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7398.t15))
% 32.29/32.54 (step t7398.t17 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule implies :premises (t7398.t16))
% 32.29/32.54 (step t7398.t18 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.54 (step t7398.t19 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7398.t18 t7398.a0 t7398.a6 t7398.a3 t7398.a1 t7398.a5 t7398.a4 t7398.a2))
% 32.29/32.54 (step t7398.t20 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7398.t17 t7398.t19))
% 32.29/32.54 (step t7398 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7398.a0 t7398.a1 t7398.a2 t7398.a3 t7398.a4 t7398.a5 t7398.a6))
% 32.29/32.54 (step t7399 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7400 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7401 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7402 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7403 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7404 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7405 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7406 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2)))) :rule resolution :premises (t7398 t7399 t7400 t7401 t7402 t7403 t7404 t7405))
% 32.29/32.54 (step t7407 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7406))
% 32.29/32.54 (step t7408 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7407))
% 32.29/32.54 (step t7409 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7397 t7408))
% 32.29/32.54 (step t7410 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7411 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7409 t7410))
% 32.29/32.54 (step t7412 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7411))
% 32.29/32.54 (step t7413 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2)) (= tptp.e22 tptp.unit2))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule implies :premises (t7412))
% 32.29/32.54 (step t7414 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7396 t7413))
% 32.29/32.54 (step t7415 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e22 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))) :rule reordering :premises (t7414))
% 32.29/32.54 (step t7416 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.54 (step t7417 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7418)
% 32.29/32.54 (assume t7418.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7418.a1 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.54 (assume t7418.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7418.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7418.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7418.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7418.a6 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.29/32.54 (assume t7418.a7 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7418.a8 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7418.a9 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7418.a10 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (step t7418.t1 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7418.t2)
% 32.29/32.54 (assume t7418.t2.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7418.t2.a1 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7418.t2.a2 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7418.t2.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7418.t2.a4 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7418.t2.a5 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7418.t2.a6 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7418.t2.a7 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7418.t2.a8 (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)))
% 32.29/32.54 (assume t7418.t2.a9 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.54 (assume t7418.t2.a10 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (step t7418.t2.t1 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7418.t2.a10))
% 32.29/32.54 (step t7418.t2.t2 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7418.t2.t1))
% 32.29/32.54 (step t7418.t2.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.54 (step t7418.t2.t4 (cl (= (tptp.op1 tptp.e10 tptp.e13) (tptp.op1 tptp.unit1 tptp.e13))) :rule cong :premises (t7418.t2.t2 t7418.t2.t3))
% 32.29/32.54 (step t7418.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13)) :rule symm :premises (t7418.t2.a9))
% 32.29/32.54 (step t7418.t2.t6 (cl (= (tptp.op1 tptp.e10 tptp.e13) tptp.e13)) :rule trans :premises (t7418.t2.t4 t7418.t2.t5))
% 32.29/32.54 (step t7418.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.h4 tptp.e13))) :rule cong :premises (t7418.t2.t6))
% 32.29/32.54 (step t7418.t2.t8 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7418.t2.a4))
% 32.29/32.54 (step t7418.t2.t9 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7418.t2.a5))
% 32.29/32.54 (step t7418.t2.t10 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7418.t2.a1))
% 32.29/32.54 (step t7418.t2.t11 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7418.t2.t9 t7418.t2.t10))
% 32.29/32.54 (step t7418.t2.t12 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule symm :premises (t7418.t2.t11))
% 32.29/32.54 (step t7418.t2.t13 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7418.t2.a2))
% 32.29/32.54 (step t7418.t2.t14 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7418.t2.t13))
% 32.29/32.54 (step t7418.t2.t15 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7418.t2.t14 t7418.t2.a1))
% 32.29/32.54 (step t7418.t2.t16 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7418.t2.a5 t7418.t2.t15))
% 32.29/32.54 (step t7418.t2.t17 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7418.t2.t16))
% 32.29/32.54 (step t7418.t2.t18 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7418.t2.a6))
% 32.29/32.54 (step t7418.t2.t19 (cl (= (tptp.op2 tptp.unit2 tptp.e20) tptp.e20)) :rule symm :premises (t7418.t2.a8))
% 32.29/32.54 (step t7418.t2.t20 (cl (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule symm :premises (t7418.t2.t19))
% 32.29/32.54 (step t7418.t2.t21 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t7418.t2.a7))
% 32.29/32.54 (step t7418.t2.t22 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.54 (step t7418.t2.t23 (cl (= (tptp.op2 tptp.unit2 tptp.e20) (tptp.op2 tptp.e22 tptp.e20))) :rule cong :premises (t7418.t2.t21 t7418.t2.t22))
% 32.29/32.54 (step t7418.t2.t24 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7418.t2.a3))
% 32.29/32.54 (step t7418.t2.t25 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7418.t2.t24))
% 32.29/32.54 (step t7418.t2.t26 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7418.t2.t27 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7418.t2.t14 t7418.t2.t26))
% 32.29/32.54 (step t7418.t2.t28 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7418.t2.a0))
% 32.29/32.54 (step t7418.t2.t29 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7418.t2.t28))
% 32.29/32.54 (step t7418.t2.t30 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7418.t2.t29))
% 32.29/32.54 (step t7418.t2.t31 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7418.t2.t25 t7418.t2.t27 t7418.t2.t30))
% 32.29/32.54 (step t7418.t2.t32 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7418.t2.t18))
% 32.29/32.54 (step t7418.t2.t33 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7418.t2.t8))
% 32.29/32.54 (step t7418.t2.t34 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7418.t2.t32 t7418.t2.t16 t7418.t2.t11 t7418.t2.t33))
% 32.29/32.54 (step t7418.t2.t35 (cl (= (tptp.op2 tptp.e22 tptp.e20) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule cong :premises (t7418.t2.t31 t7418.t2.t34))
% 32.29/32.54 (step t7418.t2.t36 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule trans :premises (t7418.t2.t7 t7418.t2.t8 t7418.t2.t12 t7418.t2.t17 t7418.t2.t18 t7418.t2.t20 t7418.t2.t23 t7418.t2.t35))
% 32.29/32.54 (step t7418.t2 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t7418.t2.a0 t7418.t2.a1 t7418.t2.a2 t7418.t2.a3 t7418.t2.a4 t7418.t2.a5 t7418.t2.a6 t7418.t2.a7 t7418.t2.a8 t7418.t2.a9 t7418.t2.a10))
% 32.29/32.54 (step t7418.t3 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7418.t4 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7418.t5 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7418.t6 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7418.t7 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7418.t8 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7418.t9 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7418.t10 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7418.t11 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.29/32.54 (step t7418.t12 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7418.t13 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7418.t14 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t7418.t2 t7418.t3 t7418.t4 t7418.t5 t7418.t6 t7418.t7 t7418.t8 t7418.t9 t7418.t10 t7418.t11 t7418.t12 t7418.t13))
% 32.29/32.54 (step t7418.t15 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7418.t14))
% 32.29/32.54 (step t7418.t16 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule contraction :premises (t7418.t15))
% 32.29/32.54 (step t7418.t17 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7418.t1 t7418.t16))
% 32.29/32.54 (step t7418.t18 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.54 (step t7418.t19 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7418.t17 t7418.t18))
% 32.29/32.54 (step t7418.t20 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))))) :rule contraction :premises (t7418.t19))
% 32.29/32.54 (step t7418.t21 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule implies :premises (t7418.t20))
% 32.29/32.54 (step t7418.t22 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.54 (step t7418.t23 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7418.t22 t7418.a0 t7418.a9 t7418.a5 t7418.a3 t7418.a10 t7418.a8 t7418.a4 t7418.a7 t7418.a6 t7418.a1 t7418.a2))
% 32.29/32.54 (step t7418.t24 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7418.t21 t7418.t23))
% 32.29/32.54 (step t7418 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule subproof :discharge (t7418.a0 t7418.a1 t7418.a2 t7418.a3 t7418.a4 t7418.a5 t7418.a6 t7418.a7 t7418.a8 t7418.a9 t7418.a10))
% 32.29/32.54 (step t7419 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7420 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7421 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7422 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7423 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7424 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7425 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) :rule and_pos)
% 32.29/32.54 (step t7426 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7427 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7428 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7429 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7430 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7418 t7419 t7420 t7421 t7422 t7423 t7424 t7425 t7426 t7427 t7428 t7429))
% 32.29/32.54 (step t7431 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7430))
% 32.29/32.54 (step t7432 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule contraction :premises (t7431))
% 32.29/32.54 (step t7433 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7417 t7432))
% 32.29/32.54 (step t7434 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))))) :rule implies_neg2)
% 32.29/32.54 (step t7435 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7433 t7434))
% 32.29/32.54 (step t7436 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))))) :rule contraction :premises (t7435))
% 32.29/32.54 (step t7437 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule implies :premises (t7436))
% 32.29/32.54 (step t7438 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13)))) :rule resolution :premises (t7416 t7437))
% 32.29/32.54 (step t7439 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.unit2 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7438))
% 32.29/32.54 (step t7440 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14)))) :rule and_neg)
% 32.29/32.54 (step t7441 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7442)
% 32.29/32.54 (assume t7442.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7442.a1 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.54 (assume t7442.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7442.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7442.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7442.a5 (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))
% 32.29/32.54 (assume t7442.a6 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7442.a7 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (step t7442.t1 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7442.t2)
% 32.29/32.54 (assume t7442.t2.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7442.t2.a1 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7442.t2.a2 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7442.t2.a3 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7442.t2.a4 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.54 (assume t7442.t2.a5 (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)))
% 32.29/32.54 (assume t7442.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7442.t2.a7 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (step t7442.t2.t1 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7442.t2.a7))
% 32.29/32.54 (step t7442.t2.t2 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7442.t2.t1))
% 32.29/32.54 (step t7442.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.54 (step t7442.t2.t4 (cl (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.unit1 tptp.e14))) :rule cong :premises (t7442.t2.t2 t7442.t2.t3))
% 32.29/32.54 (step t7442.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14)) :rule symm :premises (t7442.t2.a4))
% 32.29/32.54 (step t7442.t2.t6 (cl (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) :rule trans :premises (t7442.t2.t4 t7442.t2.t5))
% 32.29/32.54 (step t7442.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.h4 tptp.e14))) :rule cong :premises (t7442.t2.t6))
% 32.29/32.54 (step t7442.t2.t8 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7442.t2.a3))
% 32.29/32.54 (step t7442.t2.t9 (cl (= (tptp.op2 tptp.unit2 tptp.e23) tptp.e23)) :rule symm :premises (t7442.t2.a5))
% 32.29/32.54 (step t7442.t2.t10 (cl (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule symm :premises (t7442.t2.t9))
% 32.29/32.54 (step t7442.t2.t11 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t7442.t2.a1))
% 32.29/32.54 (step t7442.t2.t12 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7442.t2.t13 (cl (= (tptp.op2 tptp.unit2 tptp.e23) (tptp.op2 tptp.e22 tptp.e23))) :rule cong :premises (t7442.t2.t11 t7442.t2.t12))
% 32.29/32.54 (step t7442.t2.t14 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7442.t2.a2))
% 32.29/32.54 (step t7442.t2.t15 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7442.t2.t14))
% 32.29/32.54 (step t7442.t2.t16 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7442.t2.a6))
% 32.29/32.54 (step t7442.t2.t17 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7442.t2.t16))
% 32.29/32.54 (step t7442.t2.t18 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7442.t2.t17 t7442.t2.t12))
% 32.29/32.54 (step t7442.t2.t19 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7442.t2.a0))
% 32.29/32.54 (step t7442.t2.t20 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7442.t2.t19))
% 32.29/32.54 (step t7442.t2.t21 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7442.t2.t20))
% 32.29/32.54 (step t7442.t2.t22 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7442.t2.t15 t7442.t2.t18 t7442.t2.t21))
% 32.29/32.54 (step t7442.t2.t23 (cl (= tptp.e23 (tptp.h4 tptp.e14))) :rule symm :premises (t7442.t2.t8))
% 32.29/32.54 (step t7442.t2.t24 (cl (= (tptp.op2 tptp.e22 tptp.e23) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule cong :premises (t7442.t2.t22 t7442.t2.t23))
% 32.29/32.54 (step t7442.t2.t25 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule trans :premises (t7442.t2.t7 t7442.t2.t8 t7442.t2.t10 t7442.t2.t13 t7442.t2.t24))
% 32.29/32.54 (step t7442.t2 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t7442.t2.a0 t7442.t2.a1 t7442.t2.a2 t7442.t2.a3 t7442.t2.a4 t7442.t2.a5 t7442.t2.a6 t7442.t2.a7))
% 32.29/32.54 (step t7442.t3 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7442.t4 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7442.t5 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7442.t6 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7442.t7 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7442.t8 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7442.t9 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7442.t10 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7442.t11 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t7442.t2 t7442.t3 t7442.t4 t7442.t5 t7442.t6 t7442.t7 t7442.t8 t7442.t9 t7442.t10))
% 32.29/32.54 (step t7442.t12 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule reordering :premises (t7442.t11))
% 32.29/32.54 (step t7442.t13 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule contraction :premises (t7442.t12))
% 32.29/32.54 (step t7442.t14 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule resolution :premises (t7442.t1 t7442.t13))
% 32.29/32.54 (step t7442.t15 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.54 (step t7442.t16 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))))) :rule resolution :premises (t7442.t14 t7442.t15))
% 32.29/32.54 (step t7442.t17 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))))) :rule contraction :premises (t7442.t16))
% 32.29/32.54 (step t7442.t18 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule implies :premises (t7442.t17))
% 32.29/32.54 (step t7442.t19 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.54 (step t7442.t20 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7442.t19 t7442.a0 t7442.a6 t7442.a3 t7442.a7 t7442.a1 t7442.a5 t7442.a4 t7442.a2))
% 32.29/32.54 (step t7442.t21 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule resolution :premises (t7442.t18 t7442.t20))
% 32.29/32.54 (step t7442 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule subproof :discharge (t7442.a0 t7442.a1 t7442.a2 t7442.a3 t7442.a4 t7442.a5 t7442.a6 t7442.a7))
% 32.29/32.54 (step t7443 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7444 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7445 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7446 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7447 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7448 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7449 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7450 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7451 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))))) :rule resolution :premises (t7442 t7443 t7444 t7445 t7446 t7447 t7448 t7449 t7450))
% 32.29/32.54 (step t7452 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule reordering :premises (t7451))
% 32.29/32.54 (step t7453 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule contraction :premises (t7452))
% 32.29/32.54 (step t7454 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule resolution :premises (t7441 t7453))
% 32.29/32.54 (step t7455 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))))) :rule implies_neg2)
% 32.29/32.54 (step t7456 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))))) :rule resolution :premises (t7454 t7455))
% 32.29/32.54 (step t7457 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))))) :rule contraction :premises (t7456))
% 32.29/32.54 (step t7458 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule implies :premises (t7457))
% 32.29/32.54 (step t7459 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14)))) :rule resolution :premises (t7440 t7458))
% 32.29/32.54 (step t7460 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.unit2 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))) :rule reordering :premises (t7459))
% 32.29/32.54 (step t7461 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule and_neg)
% 32.29/32.54 (step t7462 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7463)
% 32.29/32.54 (assume t7463.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7463.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.54 (assume t7463.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7463.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7463.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7463.a5 (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))
% 32.29/32.54 (assume t7463.a6 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7463.a7 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (step t7463.t1 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7463.t2)
% 32.29/32.54 (assume t7463.t2.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7463.t2.a1 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7463.t2.a2 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7463.t2.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7463.t2.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7463.t2.a5 (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)))
% 32.29/32.54 (assume t7463.t2.a6 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.54 (assume t7463.t2.a7 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (step t7463.t2.t1 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7463.t2.a7))
% 32.29/32.54 (step t7463.t2.t2 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7463.t2.t1))
% 32.29/32.54 (step t7463.t2.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.54 (step t7463.t2.t4 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.unit1 tptp.e11))) :rule cong :premises (t7463.t2.t2 t7463.t2.t3))
% 32.29/32.54 (step t7463.t2.t5 (cl (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11)) :rule symm :premises (t7463.t2.a6))
% 32.29/32.54 (step t7463.t2.t6 (cl (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11)) :rule trans :premises (t7463.t2.t4 t7463.t2.t5))
% 32.29/32.54 (step t7463.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.h4 tptp.e11))) :rule cong :premises (t7463.t2.t6))
% 32.29/32.54 (step t7463.t2.t8 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7463.t2.a1))
% 32.29/32.54 (step t7463.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7463.t2.a2))
% 32.29/32.54 (step t7463.t2.t10 (cl (= (tptp.op2 tptp.unit2 tptp.e21) tptp.e21)) :rule symm :premises (t7463.t2.a5))
% 32.29/32.54 (step t7463.t2.t11 (cl (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule symm :premises (t7463.t2.t10))
% 32.29/32.54 (step t7463.t2.t12 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t7463.t2.a4))
% 32.29/32.54 (step t7463.t2.t13 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.54 (step t7463.t2.t14 (cl (= (tptp.op2 tptp.unit2 tptp.e21) (tptp.op2 tptp.e22 tptp.e21))) :rule cong :premises (t7463.t2.t12 t7463.t2.t13))
% 32.29/32.54 (step t7463.t2.t15 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7463.t2.a3))
% 32.29/32.54 (step t7463.t2.t16 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7463.t2.t15))
% 32.29/32.54 (step t7463.t2.t17 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7463.t2.t9))
% 32.29/32.54 (step t7463.t2.t18 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7463.t2.t19 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7463.t2.t17 t7463.t2.t18))
% 32.29/32.54 (step t7463.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7463.t2.a0))
% 32.29/32.54 (step t7463.t2.t21 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7463.t2.t20))
% 32.29/32.54 (step t7463.t2.t22 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7463.t2.t21))
% 32.29/32.54 (step t7463.t2.t23 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7463.t2.t16 t7463.t2.t19 t7463.t2.t22))
% 32.29/32.54 (step t7463.t2.t24 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule symm :premises (t7463.t2.t8))
% 32.29/32.54 (step t7463.t2.t25 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7463.t2.t17 t7463.t2.t24))
% 32.29/32.54 (step t7463.t2.t26 (cl (= (tptp.op2 tptp.e22 tptp.e21) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule cong :premises (t7463.t2.t23 t7463.t2.t25))
% 32.29/32.54 (step t7463.t2.t27 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule trans :premises (t7463.t2.t7 t7463.t2.t8 t7463.t2.t9 t7463.t2.t11 t7463.t2.t14 t7463.t2.t26))
% 32.29/32.54 (step t7463.t2 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t7463.t2.a0 t7463.t2.a1 t7463.t2.a2 t7463.t2.a3 t7463.t2.a4 t7463.t2.a5 t7463.t2.a6 t7463.t2.a7))
% 32.29/32.54 (step t7463.t3 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7463.t4 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7463.t5 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7463.t6 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7463.t7 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7463.t8 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7463.t9 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7463.t10 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7463.t11 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t7463.t2 t7463.t3 t7463.t4 t7463.t5 t7463.t6 t7463.t7 t7463.t8 t7463.t9 t7463.t10))
% 32.29/32.54 (step t7463.t12 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule reordering :premises (t7463.t11))
% 32.29/32.54 (step t7463.t13 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule contraction :premises (t7463.t12))
% 32.29/32.54 (step t7463.t14 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule resolution :premises (t7463.t1 t7463.t13))
% 32.29/32.54 (step t7463.t15 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.54 (step t7463.t16 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))))) :rule resolution :premises (t7463.t14 t7463.t15))
% 32.29/32.54 (step t7463.t17 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))))) :rule contraction :premises (t7463.t16))
% 32.29/32.54 (step t7463.t18 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule implies :premises (t7463.t17))
% 32.29/32.54 (step t7463.t19 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.54 (step t7463.t20 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7463.t19 t7463.a0 t7463.a7 t7463.a4 t7463.a3 t7463.a6 t7463.a5 t7463.a1 t7463.a2))
% 32.29/32.54 (step t7463.t21 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule resolution :premises (t7463.t18 t7463.t20))
% 32.29/32.54 (step t7463 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule subproof :discharge (t7463.a0 t7463.a1 t7463.a2 t7463.a3 t7463.a4 t7463.a5 t7463.a6 t7463.a7))
% 32.29/32.54 (step t7464 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7465 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7466 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7467 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7468 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7469 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7470 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7471 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7472 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))))) :rule resolution :premises (t7463 t7464 t7465 t7466 t7467 t7468 t7469 t7470 t7471))
% 32.29/32.54 (step t7473 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule reordering :premises (t7472))
% 32.29/32.54 (step t7474 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule contraction :premises (t7473))
% 32.29/32.54 (step t7475 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule resolution :premises (t7462 t7474))
% 32.29/32.54 (step t7476 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (not (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))))) :rule implies_neg2)
% 32.29/32.54 (step t7477 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))))) :rule resolution :premises (t7475 t7476))
% 32.29/32.54 (step t7478 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))))) :rule contraction :premises (t7477))
% 32.29/32.54 (step t7479 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule implies :premises (t7478))
% 32.29/32.54 (step t7480 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11)))) :rule resolution :premises (t7461 t7479))
% 32.29/32.54 (step t7481 (cl (= (tptp.h4 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h4 tptp.e10) (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.unit2 tptp.e21))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule reordering :premises (t7480))
% 32.29/32.54 (step t7482 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule and_neg)
% 32.29/32.54 (step t7483 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7484)
% 32.29/32.54 (assume t7484.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7484.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.54 (assume t7484.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7484.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7484.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7484.a5 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.29/32.54 (assume t7484.a6 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7484.a7 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (step t7484.t1 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7484.t2)
% 32.29/32.54 (assume t7484.t2.a0 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7484.t2.a1 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7484.t2.a2 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7484.t2.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7484.t2.a4 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7484.t2.a5 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.29/32.54 (assume t7484.t2.a6 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.54 (assume t7484.t2.a7 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (step t7484.t2.t1 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.54 (step t7484.t2.t2 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7484.t2.a7))
% 32.29/32.54 (step t7484.t2.t3 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7484.t2.t2))
% 32.29/32.54 (step t7484.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.unit1))) :rule cong :premises (t7484.t2.t1 t7484.t2.t3))
% 32.29/32.54 (step t7484.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t7484.t2.a6))
% 32.29/32.54 (step t7484.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11)) :rule trans :premises (t7484.t2.t4 t7484.t2.t5))
% 32.29/32.54 (step t7484.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.h4 tptp.e11))) :rule cong :premises (t7484.t2.t6))
% 32.29/32.54 (step t7484.t2.t8 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7484.t2.a0))
% 32.29/32.54 (step t7484.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7484.t2.a1))
% 32.29/32.54 (step t7484.t2.t10 (cl (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21)) :rule symm :premises (t7484.t2.a5))
% 32.29/32.54 (step t7484.t2.t11 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule symm :premises (t7484.t2.t10))
% 32.29/32.54 (step t7484.t2.t12 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.54 (step t7484.t2.t13 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t7484.t2.a4))
% 32.29/32.54 (step t7484.t2.t14 (cl (= (tptp.op2 tptp.e21 tptp.unit2) (tptp.op2 tptp.e21 tptp.e22))) :rule cong :premises (t7484.t2.t12 t7484.t2.t13))
% 32.29/32.54 (step t7484.t2.t15 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7484.t2.t9))
% 32.29/32.54 (step t7484.t2.t16 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7484.t2.t15 t7484.t2.a0))
% 32.29/32.54 (step t7484.t2.t17 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7484.t2.a3))
% 32.29/32.54 (step t7484.t2.t18 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7484.t2.t17))
% 32.29/32.54 (step t7484.t2.t19 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7484.t2.t20 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7484.t2.t15 t7484.t2.t19))
% 32.29/32.54 (step t7484.t2.t21 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7484.t2.a2))
% 32.29/32.54 (step t7484.t2.t22 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7484.t2.t21))
% 32.29/32.54 (step t7484.t2.t23 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7484.t2.t22))
% 32.29/32.54 (step t7484.t2.t24 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7484.t2.t18 t7484.t2.t20 t7484.t2.t23))
% 32.29/32.54 (step t7484.t2.t25 (cl (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule cong :premises (t7484.t2.t16 t7484.t2.t24))
% 32.29/32.54 (step t7484.t2.t26 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule trans :premises (t7484.t2.t7 t7484.t2.t8 t7484.t2.t9 t7484.t2.t11 t7484.t2.t14 t7484.t2.t25))
% 32.29/32.54 (step t7484.t2 (cl (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7484.t2.a0 t7484.t2.a1 t7484.t2.a2 t7484.t2.a3 t7484.t2.a4 t7484.t2.a5 t7484.t2.a6 t7484.t2.a7))
% 32.29/32.54 (step t7484.t3 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7484.t4 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7484.t5 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7484.t6 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7484.t7 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7484.t8 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7484.t9 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7484.t10 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7484.t11 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t7484.t2 t7484.t3 t7484.t4 t7484.t5 t7484.t6 t7484.t7 t7484.t8 t7484.t9 t7484.t10))
% 32.29/32.54 (step t7484.t12 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7484.t11))
% 32.29/32.54 (step t7484.t13 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7484.t12))
% 32.29/32.54 (step t7484.t14 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7484.t1 t7484.t13))
% 32.29/32.54 (step t7484.t15 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7484.t16 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7484.t14 t7484.t15))
% 32.29/32.54 (step t7484.t17 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7484.t16))
% 32.29/32.54 (step t7484.t18 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule implies :premises (t7484.t17))
% 32.29/32.54 (step t7484.t19 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.54 (step t7484.t20 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7484.t19 t7484.a7 t7484.a4 t7484.a0 t7484.a3 t7484.a6 t7484.a5 t7484.a1 t7484.a2))
% 32.29/32.54 (step t7484.t21 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7484.t18 t7484.t20))
% 32.29/32.54 (step t7484 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7484.a0 t7484.a1 t7484.a2 t7484.a3 t7484.a4 t7484.a5 t7484.a6 t7484.a7))
% 32.29/32.54 (step t7485 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7486 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7487 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7488 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7489 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7490 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7491 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7492 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7493 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))))) :rule resolution :premises (t7484 t7485 t7486 t7487 t7488 t7489 t7490 t7491 t7492))
% 32.29/32.54 (step t7494 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7493))
% 32.29/32.54 (step t7495 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7494))
% 32.29/32.54 (step t7496 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7483 t7495))
% 32.29/32.54 (step t7497 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7498 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7496 t7497))
% 32.29/32.54 (step t7499 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7498))
% 32.29/32.54 (step t7500 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule implies :premises (t7499))
% 32.29/32.54 (step t7501 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7482 t7500))
% 32.29/32.54 (step t7502 (cl (= (tptp.h4 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e11) (tptp.h4 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule reordering :premises (t7501))
% 32.29/32.54 (step t7503 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.54 (step t7504 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7505)
% 32.29/32.54 (assume t7505.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7505.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.54 (assume t7505.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7505.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7505.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7505.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7505.a6 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.54 (assume t7505.a7 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7505.a8 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7505.a9 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7505.a10 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (step t7505.t1 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7505.t2)
% 32.29/32.54 (assume t7505.t2.a0 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7505.t2.a1 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7505.t2.a2 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7505.t2.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7505.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7505.t2.a5 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7505.t2.a6 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7505.t2.a7 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7505.t2.a8 (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)))
% 32.29/32.54 (assume t7505.t2.a9 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.54 (assume t7505.t2.a10 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (step t7505.t2.t1 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.54 (step t7505.t2.t2 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7505.t2.a10))
% 32.29/32.54 (step t7505.t2.t3 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7505.t2.t2))
% 32.29/32.54 (step t7505.t2.t4 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e13 tptp.unit1))) :rule cong :premises (t7505.t2.t1 t7505.t2.t3))
% 32.29/32.54 (step t7505.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t7505.t2.a9))
% 32.29/32.54 (step t7505.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13)) :rule trans :premises (t7505.t2.t4 t7505.t2.t5))
% 32.29/32.54 (step t7505.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.h4 tptp.e13))) :rule cong :premises (t7505.t2.t6))
% 32.29/32.54 (step t7505.t2.t8 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7505.t2.a0))
% 32.29/32.54 (step t7505.t2.t9 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7505.t2.a1))
% 32.29/32.54 (step t7505.t2.t10 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7505.t2.a2))
% 32.29/32.54 (step t7505.t2.t11 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7505.t2.t9 t7505.t2.t10))
% 32.29/32.54 (step t7505.t2.t12 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule symm :premises (t7505.t2.t11))
% 32.29/32.54 (step t7505.t2.t13 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7505.t2.a3))
% 32.29/32.54 (step t7505.t2.t14 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7505.t2.t13))
% 32.29/32.54 (step t7505.t2.t15 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7505.t2.t14 t7505.t2.a2))
% 32.29/32.54 (step t7505.t2.t16 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7505.t2.a1 t7505.t2.t15))
% 32.29/32.54 (step t7505.t2.t17 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7505.t2.t16))
% 32.29/32.54 (step t7505.t2.t18 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7505.t2.a4))
% 32.29/32.54 (step t7505.t2.t19 (cl (= (tptp.op2 tptp.e20 tptp.unit2) tptp.e20)) :rule symm :premises (t7505.t2.a8))
% 32.29/32.54 (step t7505.t2.t20 (cl (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule symm :premises (t7505.t2.t19))
% 32.29/32.54 (step t7505.t2.t21 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.54 (step t7505.t2.t22 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t7505.t2.a7))
% 32.29/32.54 (step t7505.t2.t23 (cl (= (tptp.op2 tptp.e20 tptp.unit2) (tptp.op2 tptp.e20 tptp.e22))) :rule cong :premises (t7505.t2.t21 t7505.t2.t22))
% 32.29/32.54 (step t7505.t2.t24 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7505.t2.t18))
% 32.29/32.54 (step t7505.t2.t25 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7505.t2.t8))
% 32.29/32.54 (step t7505.t2.t26 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7505.t2.t24 t7505.t2.t16 t7505.t2.t11 t7505.t2.t25))
% 32.29/32.54 (step t7505.t2.t27 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7505.t2.a6))
% 32.29/32.54 (step t7505.t2.t28 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7505.t2.t27))
% 32.29/32.54 (step t7505.t2.t29 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7505.t2.t30 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7505.t2.t14 t7505.t2.t29))
% 32.29/32.54 (step t7505.t2.t31 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7505.t2.a5))
% 32.29/32.54 (step t7505.t2.t32 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7505.t2.t31))
% 32.29/32.54 (step t7505.t2.t33 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7505.t2.t32))
% 32.29/32.54 (step t7505.t2.t34 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7505.t2.t28 t7505.t2.t30 t7505.t2.t33))
% 32.29/32.54 (step t7505.t2.t35 (cl (= (tptp.op2 tptp.e20 tptp.e22) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule cong :premises (t7505.t2.t26 t7505.t2.t34))
% 32.29/32.54 (step t7505.t2.t36 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule trans :premises (t7505.t2.t7 t7505.t2.t8 t7505.t2.t12 t7505.t2.t17 t7505.t2.t18 t7505.t2.t20 t7505.t2.t23 t7505.t2.t35))
% 32.29/32.54 (step t7505.t2 (cl (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7505.t2.a0 t7505.t2.a1 t7505.t2.a2 t7505.t2.a3 t7505.t2.a4 t7505.t2.a5 t7505.t2.a6 t7505.t2.a7 t7505.t2.a8 t7505.t2.a9 t7505.t2.a10))
% 32.29/32.54 (step t7505.t3 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7505.t4 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7505.t5 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7505.t6 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7505.t7 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7505.t8 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7505.t9 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7505.t10 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7505.t11 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7505.t12 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7505.t13 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7505.t14 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t7505.t2 t7505.t3 t7505.t4 t7505.t5 t7505.t6 t7505.t7 t7505.t8 t7505.t9 t7505.t10 t7505.t11 t7505.t12 t7505.t13))
% 32.29/32.54 (step t7505.t15 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7505.t14))
% 32.29/32.54 (step t7505.t16 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7505.t15))
% 32.29/32.54 (step t7505.t17 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7505.t1 t7505.t16))
% 32.29/32.54 (step t7505.t18 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7505.t19 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7505.t17 t7505.t18))
% 32.29/32.54 (step t7505.t20 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7505.t19))
% 32.29/32.54 (step t7505.t21 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule implies :premises (t7505.t20))
% 32.29/32.54 (step t7505.t22 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.54 (step t7505.t23 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7505.t22 t7505.a10 t7505.a8 t7505.a9 t7505.a5 t7505.a4 t7505.a0 t7505.a3 t7505.a7 t7505.a6 t7505.a1 t7505.a2))
% 32.29/32.54 (step t7505.t24 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7505.t21 t7505.t23))
% 32.29/32.54 (step t7505 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7505.a0 t7505.a1 t7505.a2 t7505.a3 t7505.a4 t7505.a5 t7505.a6 t7505.a7 t7505.a8 t7505.a9 t7505.a10))
% 32.29/32.54 (step t7506 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7507 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7508 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7509 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7510 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7511 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7512 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7513 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7514 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7515 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7516 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7517 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7505 t7506 t7507 t7508 t7509 t7510 t7511 t7512 t7513 t7514 t7515 t7516))
% 32.29/32.54 (step t7518 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7517))
% 32.29/32.54 (step t7519 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7518))
% 32.29/32.54 (step t7520 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7504 t7519))
% 32.29/32.54 (step t7521 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7522 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7520 t7521))
% 32.29/32.54 (step t7523 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7522))
% 32.29/32.54 (step t7524 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule implies :premises (t7523))
% 32.29/32.54 (step t7525 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7503 t7524))
% 32.29/32.54 (step t7526 (cl (= (tptp.h4 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e13) (tptp.h4 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e20 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7525))
% 32.29/32.54 (step t7527 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14)))) :rule and_neg)
% 32.29/32.54 (step t7528 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7529)
% 32.29/32.54 (assume t7529.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7529.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.54 (assume t7529.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7529.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7529.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7529.a5 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.54 (assume t7529.a6 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7529.a7 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (step t7529.t1 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7529.t2)
% 32.29/32.54 (assume t7529.t2.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7529.t2.a1 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7529.t2.a2 (= tptp.e22 tptp.unit2))
% 32.29/32.54 (assume t7529.t2.a3 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7529.t2.a4 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.54 (assume t7529.t2.a5 (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)))
% 32.29/32.54 (assume t7529.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7529.t2.a7 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (step t7529.t2.t1 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.54 (step t7529.t2.t2 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7529.t2.a7))
% 32.29/32.54 (step t7529.t2.t3 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7529.t2.t2))
% 32.29/32.54 (step t7529.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.unit1))) :rule cong :premises (t7529.t2.t1 t7529.t2.t3))
% 32.29/32.54 (step t7529.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t7529.t2.a4))
% 32.29/32.54 (step t7529.t2.t6 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) :rule trans :premises (t7529.t2.t4 t7529.t2.t5))
% 32.29/32.54 (step t7529.t2.t7 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.h4 tptp.e14))) :rule cong :premises (t7529.t2.t6))
% 32.29/32.54 (step t7529.t2.t8 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7529.t2.a1))
% 32.29/32.54 (step t7529.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.unit2) tptp.e23)) :rule symm :premises (t7529.t2.a5))
% 32.29/32.54 (step t7529.t2.t10 (cl (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule symm :premises (t7529.t2.t9))
% 32.29/32.54 (step t7529.t2.t11 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7529.t2.t12 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t7529.t2.a2))
% 32.29/32.54 (step t7529.t2.t13 (cl (= (tptp.op2 tptp.e23 tptp.unit2) (tptp.op2 tptp.e23 tptp.e22))) :rule cong :premises (t7529.t2.t11 t7529.t2.t12))
% 32.29/32.54 (step t7529.t2.t14 (cl (= tptp.e23 (tptp.h4 tptp.e14))) :rule symm :premises (t7529.t2.t8))
% 32.29/32.54 (step t7529.t2.t15 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7529.t2.a3))
% 32.29/32.54 (step t7529.t2.t16 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7529.t2.t15))
% 32.29/32.54 (step t7529.t2.t17 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7529.t2.a6))
% 32.29/32.54 (step t7529.t2.t18 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7529.t2.t17))
% 32.29/32.54 (step t7529.t2.t19 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7529.t2.t18 t7529.t2.t11))
% 32.29/32.54 (step t7529.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7529.t2.a0))
% 32.29/32.54 (step t7529.t2.t21 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7529.t2.t20))
% 32.29/32.54 (step t7529.t2.t22 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7529.t2.t21))
% 32.29/32.54 (step t7529.t2.t23 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7529.t2.t16 t7529.t2.t19 t7529.t2.t22))
% 32.29/32.54 (step t7529.t2.t24 (cl (= (tptp.op2 tptp.e23 tptp.e22) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule cong :premises (t7529.t2.t14 t7529.t2.t23))
% 32.29/32.54 (step t7529.t2.t25 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule trans :premises (t7529.t2.t7 t7529.t2.t8 t7529.t2.t10 t7529.t2.t13 t7529.t2.t24))
% 32.29/32.54 (step t7529.t2 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7529.t2.a0 t7529.t2.a1 t7529.t2.a2 t7529.t2.a3 t7529.t2.a4 t7529.t2.a5 t7529.t2.a6 t7529.t2.a7))
% 32.29/32.54 (step t7529.t3 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7529.t4 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7529.t5 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7529.t6 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7529.t7 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7529.t8 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7529.t9 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7529.t10 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7529.t11 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t7529.t2 t7529.t3 t7529.t4 t7529.t5 t7529.t6 t7529.t7 t7529.t8 t7529.t9 t7529.t10))
% 32.29/32.54 (step t7529.t12 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7529.t11))
% 32.29/32.54 (step t7529.t13 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7529.t12))
% 32.29/32.54 (step t7529.t14 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7529.t1 t7529.t13))
% 32.29/32.54 (step t7529.t15 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7529.t16 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7529.t14 t7529.t15))
% 32.29/32.54 (step t7529.t17 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7529.t16))
% 32.29/32.54 (step t7529.t18 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule implies :premises (t7529.t17))
% 32.29/32.54 (step t7529.t19 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1)) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.54 (step t7529.t20 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= tptp.e22 tptp.unit2) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7529.t19 t7529.a0 t7529.a7 t7529.a6 t7529.a3 t7529.a1 t7529.a5 t7529.a4 t7529.a2))
% 32.29/32.54 (step t7529.t21 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7529.t18 t7529.t20))
% 32.29/32.54 (step t7529 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule subproof :discharge (t7529.a0 t7529.a1 t7529.a2 t7529.a3 t7529.a4 t7529.a5 t7529.a6 t7529.a7))
% 32.29/32.54 (step t7530 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7531 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7532 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7533 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7534 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7535 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) :rule and_pos)
% 32.29/32.54 (step t7536 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.29/32.54 (step t7537 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7538 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))))) :rule resolution :premises (t7529 t7530 t7531 t7532 t7533 t7534 t7535 t7536 t7537))
% 32.29/32.54 (step t7539 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule reordering :premises (t7538))
% 32.29/32.54 (step t7540 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule contraction :premises (t7539))
% 32.29/32.54 (step t7541 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7528 t7540))
% 32.29/32.54 (step t7542 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (not (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))))) :rule implies_neg2)
% 32.29/32.54 (step t7543 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))))) :rule resolution :premises (t7541 t7542))
% 32.29/32.54 (step t7544 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))))) :rule contraction :premises (t7543))
% 32.29/32.54 (step t7545 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e23 (tptp.h4 tptp.e14)))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule implies :premises (t7544))
% 32.29/32.54 (step t7546 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10)))) :rule resolution :premises (t7527 t7545))
% 32.29/32.54 (step t7547 (cl (= (tptp.h4 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e23 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))) :rule reordering :premises (t7546))
% 32.29/32.54 (step t7548 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule and_neg)
% 32.29/32.54 (step t7549 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7550)
% 32.29/32.54 (assume t7550.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7550.a1 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7550.a2 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (step t7550.t1 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7550.t2)
% 32.29/32.54 (assume t7550.t2.a0 (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))
% 32.29/32.54 (assume t7550.t2.a1 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.54 (assume t7550.t2.a2 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (step t7550.t2.t1 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t7550.t2.a1))
% 32.29/32.54 (step t7550.t2.t2 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t7550.t2.t1))
% 32.29/32.54 (step t7550.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7550.t2.a2))
% 32.29/32.54 (step t7550.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7550.t2.t3))
% 32.29/32.54 (step t7550.t2.t5 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7550.t2.t6 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule cong :premises (t7550.t2.t4 t7550.t2.t5))
% 32.29/32.54 (step t7550.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7550.t2.a0))
% 32.29/32.54 (step t7550.t2.t8 (cl (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule symm :premises (t7550.t2.t7))
% 32.29/32.54 (step t7550.t2.t9 (cl (= (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23) (tptp.h4 tptp.e10))) :rule symm :premises (t7550.t2.t8))
% 32.29/32.54 (step t7550.t2.t10 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule trans :premises (t7550.t2.t2 t7550.t2.t6 t7550.t2.t9))
% 32.29/32.54 (step t7550.t2 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule subproof :discharge (t7550.t2.a0 t7550.t2.a1 t7550.t2.a2))
% 32.29/32.54 (step t7550.t3 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7550.t4 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7550.t5 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7550.t6 (cl (= tptp.e22 (tptp.h4 tptp.e10)) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule resolution :premises (t7550.t2 t7550.t3 t7550.t4 t7550.t5))
% 32.29/32.54 (step t7550.t7 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule reordering :premises (t7550.t6))
% 32.29/32.54 (step t7550.t8 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule contraction :premises (t7550.t7))
% 32.29/32.54 (step t7550.t9 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule resolution :premises (t7550.t1 t7550.t8))
% 32.29/32.54 (step t7550.t10 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) (not (= tptp.e22 (tptp.h4 tptp.e10)))) :rule implies_neg2)
% 32.29/32.54 (step t7550.t11 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10)))) :rule resolution :premises (t7550.t9 t7550.t10))
% 32.29/32.54 (step t7550.t12 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10)))) :rule contraction :premises (t7550.t11))
% 32.29/32.54 (step t7550.t13 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule implies :premises (t7550.t12))
% 32.29/32.54 (step t7550.t14 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule and_neg)
% 32.29/32.54 (step t7550.t15 (cl (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule resolution :premises (t7550.t14 t7550.a0 t7550.a1 t7550.a2))
% 32.29/32.54 (step t7550.t16 (cl (= tptp.e22 (tptp.h4 tptp.e10))) :rule resolution :premises (t7550.t13 t7550.t15))
% 32.29/32.54 (step t7550 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule subproof :discharge (t7550.a0 t7550.a1 t7550.a2))
% 32.29/32.54 (step t7551 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7552 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7553 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7554 (cl (= tptp.e22 (tptp.h4 tptp.e10)) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule resolution :premises (t7550 t7551 t7552 t7553))
% 32.29/32.54 (step t7555 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule reordering :premises (t7554))
% 32.29/32.54 (step t7556 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule contraction :premises (t7555))
% 32.29/32.54 (step t7557 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule resolution :premises (t7549 t7556))
% 32.29/32.54 (step t7558 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) (not (= tptp.e22 (tptp.h4 tptp.e10)))) :rule implies_neg2)
% 32.29/32.54 (step t7559 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10)))) :rule resolution :premises (t7557 t7558))
% 32.29/32.54 (step t7560 (cl (=> (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10)))) :rule contraction :premises (t7559))
% 32.29/32.54 (step t7561 (cl (not (and (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule implies :premises (t7560))
% 32.29/32.54 (step t7562 (cl (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (= tptp.e22 (tptp.h4 tptp.e10))) :rule resolution :premises (t7548 t7561))
% 32.29/32.54 (step t7563 (cl (= tptp.e22 (tptp.h4 tptp.e10)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h4 tptp.e10) (tptp.op2 (tptp.op2 tptp.e23 tptp.e23) tptp.e23)))) :rule reordering :premises (t7562))
% 32.29/32.54 (step t7564 (cl (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule and_neg)
% 32.29/32.54 (step t7565 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13))) (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7566)
% 32.29/32.54 (assume t7566.a0 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7566.a1 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7566.a2 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7566.a3 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7566.a4 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (step t7566.t1 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= tptp.e20 (tptp.h4 tptp.e13))) (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7566.t2)
% 32.29/32.54 (assume t7566.t2.a0 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7566.t2.a1 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7566.t2.a2 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7566.t2.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.54 (assume t7566.t2.a4 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (step t7566.t2.t1 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7566.t2.a4))
% 32.29/32.54 (step t7566.t2.t2 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7566.t2.t1))
% 32.29/32.54 (step t7566.t2.t3 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e21)) :rule symm :premises (t7566.t2.a3))
% 32.29/32.54 (step t7566.t2.t4 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7566.t2.t3))
% 32.29/32.54 (step t7566.t2.t5 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule trans :premises (t7566.t2.t4 t7566.t2.a2))
% 32.29/32.54 (step t7566.t2.t6 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7566.t2.a1 t7566.t2.t5))
% 32.29/32.54 (step t7566.t2.t7 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7566.t2.a1))
% 32.29/32.54 (step t7566.t2.t8 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7566.t2.a2))
% 32.29/32.54 (step t7566.t2.t9 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7566.t2.t7 t7566.t2.t8))
% 32.29/32.54 (step t7566.t2.t10 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7566.t2.a0))
% 32.29/32.54 (step t7566.t2.t11 (cl (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule symm :premises (t7566.t2.t10))
% 32.29/32.54 (step t7566.t2.t12 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7566.t2.t2 t7566.t2.t6 t7566.t2.t9 t7566.t2.t11))
% 32.29/32.54 (step t7566.t2 (cl (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule subproof :discharge (t7566.t2.a0 t7566.t2.a1 t7566.t2.a2 t7566.t2.a3 t7566.t2.a4))
% 32.29/32.54 (step t7566.t3 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7566.t4 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7566.t5 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7566.t6 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7566.t7 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7566.t8 (cl (= tptp.e20 (tptp.h4 tptp.e13)) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t7566.t2 t7566.t3 t7566.t4 t7566.t5 t7566.t6 t7566.t7))
% 32.29/32.54 (step t7566.t9 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule reordering :premises (t7566.t8))
% 32.29/32.54 (step t7566.t10 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule contraction :premises (t7566.t9))
% 32.29/32.54 (step t7566.t11 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= tptp.e20 (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule resolution :premises (t7566.t1 t7566.t10))
% 32.29/32.54 (step t7566.t12 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= tptp.e20 (tptp.h4 tptp.e13))) (not (= tptp.e20 (tptp.h4 tptp.e13)))) :rule implies_neg2)
% 32.29/32.54 (step t7566.t13 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= tptp.e20 (tptp.h4 tptp.e13))) (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= tptp.e20 (tptp.h4 tptp.e13)))) :rule resolution :premises (t7566.t11 t7566.t12))
% 32.29/32.54 (step t7566.t14 (cl (=> (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (= tptp.e20 (tptp.h4 tptp.e13)))) :rule contraction :premises (t7566.t13))
% 32.29/32.54 (step t7566.t15 (cl (not (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule implies :premises (t7566.t14))
% 32.29/32.54 (step t7566.t16 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule and_neg)
% 32.29/32.54 (step t7566.t17 (cl (and (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t7566.t16 t7566.a4 t7566.a2 t7566.a3 t7566.a1 t7566.a0))
% 32.29/32.54 (step t7566.t18 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule resolution :premises (t7566.t15 t7566.t17))
% 32.29/32.54 (step t7566 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule subproof :discharge (t7566.a0 t7566.a1 t7566.a2 t7566.a3 t7566.a4))
% 32.29/32.54 (step t7567 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7568 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7569 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7570 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7571 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7572 (cl (= tptp.e20 (tptp.h4 tptp.e13)) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule resolution :premises (t7566 t7567 t7568 t7569 t7570 t7571))
% 32.29/32.54 (step t7573 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule reordering :premises (t7572))
% 32.29/32.54 (step t7574 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule contraction :premises (t7573))
% 32.29/32.54 (step t7575 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule resolution :premises (t7565 t7574))
% 32.29/32.54 (step t7576 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13))) (not (= tptp.e20 (tptp.h4 tptp.e13)))) :rule implies_neg2)
% 32.29/32.54 (step t7577 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13))) (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13)))) :rule resolution :premises (t7575 t7576))
% 32.29/32.54 (step t7578 (cl (=> (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13)))) :rule contraction :premises (t7577))
% 32.29/32.54 (step t7579 (cl (not (and (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule implies :premises (t7578))
% 32.29/32.54 (step t7580 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (= tptp.e20 (tptp.h4 tptp.e13))) :rule resolution :premises (t7564 t7579))
% 32.29/32.54 (step t7581 (cl (= tptp.e20 (tptp.h4 tptp.e13)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))) :rule reordering :premises (t7580))
% 32.29/32.54 (step t7582 (cl (not (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))))) (not (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.54 (step t7583 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule refl)
% 32.29/32.54 (step t7584 (cl (= (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)))) :rule refl)
% 32.29/32.54 (step t7585 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule refl)
% 32.29/32.54 (step t7586 (cl (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))))) :rule cong :premises (t1952 t1111 t7583 t7584 t1904 t7585))
% 32.29/32.54 (step t7587 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.54 (step t7588 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7589)
% 32.29/32.54 (assume t7589.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.54 (assume t7589.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.54 (assume t7589.a2 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.54 (assume t7589.a3 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7589.a4 (not (= tptp.e14 tptp.unit1)))
% 32.29/32.54 (step t7589.t1 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7589.t2)
% 32.29/32.54 (assume t7589.t2.a0 (not (= tptp.e14 tptp.unit1)))
% 32.29/32.54 (assume t7589.t2.a1 (= tptp.e10 tptp.unit1))
% 32.29/32.54 (assume t7589.t2.a2 (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))
% 32.29/32.54 (assume t7589.t2.a3 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.54 (step t7589.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) false) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.54 (step t7589.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) false)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule equiv1 :premises (t7589.t2.t1))
% 32.29/32.54 (step t7589.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.54 (step t7589.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t7589.t2.a2))
% 32.29/32.54 (step t7589.t2.t5 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7589.t2.a1))
% 32.29/32.54 (step t7589.t2.t6 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7589.t2.t5))
% 32.29/32.54 (step t7589.t2.t7 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.unit1)) :rule trans :premises (t7589.t2.t4 t7589.t2.t6))
% 32.29/32.54 (step t7589.t2.t8 (cl (= tptp.unit1 (tptp.op1 tptp.e11 tptp.e14))) :rule symm :premises (t7589.t2.t7))
% 32.29/32.54 (step t7589.t2.t9 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) :rule symm :premises (t7589.t2.a3))
% 32.29/32.54 (step t7589.t2.t10 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t7589.t2.t9 t7589.t2.a2))
% 32.29/32.54 (step t7589.t2.t11 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t7589.t2.t10))
% 32.29/32.54 (step t7589.t2.t12 (cl (= tptp.unit1 (tptp.op1 tptp.e14 tptp.e12))) :rule trans :premises (t7589.t2.t8 t7589.t2.t11))
% 32.29/32.54 (step t7589.t2.t13 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.unit1)) :rule symm :premises (t7589.t2.t12))
% 32.29/32.54 (step t7589.t2.t14 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e14 tptp.unit1))) :rule cong :premises (t7589.t2.t3 t7589.t2.t13))
% 32.29/32.54 (step t7589.t2.t15 (cl (= (= (= tptp.e14 tptp.unit1) false) (not (= tptp.e14 tptp.unit1)))) :rule equiv_simplify)
% 32.29/32.54 (step t7589.t2.t16 (cl (= (= tptp.e14 tptp.unit1) false) (not (not (= tptp.e14 tptp.unit1)))) :rule equiv2 :premises (t7589.t2.t15))
% 32.29/32.54 (step t7589.t2.t17 (cl (not (not (not (= tptp.e14 tptp.unit1)))) (= tptp.e14 tptp.unit1)) :rule not_not)
% 32.29/32.54 (step t7589.t2.t18 (cl (= (= tptp.e14 tptp.unit1) false) (= tptp.e14 tptp.unit1)) :rule resolution :premises (t7589.t2.t16 t7589.t2.t17))
% 32.29/32.54 (step t7589.t2.t19 (cl (= (= tptp.e14 tptp.unit1) false)) :rule resolution :premises (t7589.t2.t18 t7589.t2.a0))
% 32.29/32.54 (step t7589.t2.t20 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)) false)) :rule trans :premises (t7589.t2.t14 t7589.t2.t19))
% 32.29/32.54 (step t7589.t2.t21 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t7589.t2.t2 t7589.t2.t20))
% 32.29/32.54 (step t7589.t2 (cl (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule subproof :discharge (t7589.t2.a0 t7589.t2.a1 t7589.t2.a2 t7589.t2.a3))
% 32.29/32.54 (step t7589.t3 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7589.t4 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7589.t5 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7589.t6 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.54 (step t7589.t7 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t7589.t2 t7589.t3 t7589.t4 t7589.t5 t7589.t6))
% 32.29/32.54 (step t7589.t8 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule reordering :premises (t7589.t7))
% 32.29/32.54 (step t7589.t9 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t7589.t8))
% 32.29/32.54 (step t7589.t10 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t7589.t1 t7589.t9))
% 32.29/32.54 (step t7589.t11 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7589.t12 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t7589.t10 t7589.t11))
% 32.29/32.54 (step t7589.t13 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule contraction :premises (t7589.t12))
% 32.29/32.54 (step t7589.t14 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies :premises (t7589.t13))
% 32.29/32.54 (step t7589.t15 (cl (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule and_neg)
% 32.29/32.54 (step t7589.t16 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7589.t17)
% 32.29/32.54 (assume t7589.t17.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.54 (assume t7589.t17.a1 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.54 (step t7589.t17.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t7589.t17.a1))
% 32.29/32.54 (step t7589.t17.t2 (cl (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule symm :premises (t7589.t17.t1))
% 32.29/32.54 (step t7589.t17.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t7589.t17.a0))
% 32.29/32.54 (step t7589.t17.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t7589.t17.t3))
% 32.29/32.54 (step t7589.t17.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t7589.t17.t4))
% 32.29/32.54 (step t7589.t17.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.54 (step t7589.t17.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule cong :premises (t7589.t17.t5 t7589.t17.t6))
% 32.29/32.54 (step t7589.t17.t8 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t7589.t17.t2 t7589.t17.t7))
% 32.29/32.54 (step t7589.t17 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule subproof :discharge (t7589.t17.a0 t7589.t17.a1))
% 32.29/32.54 (step t7589.t18 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7589.t19 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7589.t20 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule resolution :premises (t7589.t17 t7589.t18 t7589.t19))
% 32.29/32.54 (step t7589.t21 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule reordering :premises (t7589.t20))
% 32.29/32.54 (step t7589.t22 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule contraction :premises (t7589.t21))
% 32.29/32.54 (step t7589.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t7589.t16 t7589.t22))
% 32.29/32.54 (step t7589.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg2)
% 32.29/32.54 (step t7589.t25 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t7589.t23 t7589.t24))
% 32.29/32.54 (step t7589.t26 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t7589.t25))
% 32.29/32.54 (step t7589.t27 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule implies :premises (t7589.t26))
% 32.29/32.54 (step t7589.t28 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule and_neg)
% 32.29/32.54 (step t7589.t29 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule resolution :premises (t7589.t28 t7589.a1 t7589.a0))
% 32.29/32.54 (step t7589.t30 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t7589.t27 t7589.t29))
% 32.29/32.54 (step t7589.t31 (cl (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t7589.t15 t7589.a4 t7589.a3 t7589.t30 t7589.a2))
% 32.29/32.54 (step t7589.t32 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t7589.t14 t7589.t31))
% 32.29/32.54 (step t7589 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule subproof :discharge (t7589.a0 t7589.a1 t7589.a2 t7589.a3 t7589.a4))
% 32.29/32.54 (step t7590 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7591 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7592 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.54 (step t7593 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.54 (step t7594 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.54 (step t7595 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))))) :rule resolution :premises (t7589 t7590 t7591 t7592 t7593 t7594))
% 32.29/32.54 (step t7596 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule reordering :premises (t7595))
% 32.29/32.54 (step t7597 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t7596))
% 32.29/32.54 (step t7598 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t7588 t7597))
% 32.29/32.54 (step t7599 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7600 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t7598 t7599))
% 32.29/32.54 (step t7601 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule contraction :premises (t7600))
% 32.29/32.54 (step t7602 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies :premises (t7601))
% 32.29/32.54 (step t7603 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t7587 t7602))
% 32.29/32.54 (step t7604 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule or_neg)
% 32.29/32.54 (step t7605 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.54 (step t7606 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule or_neg)
% 32.29/32.54 (step t7607 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.54 (step t7608 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (not (= tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.54 (step t7609 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule or_neg)
% 32.29/32.54 (step t7610 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t7603 t7604 t7605 t7606 t7607 t7608 t7609))
% 32.29/32.54 (step t7611 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule contraction :premises (t7610))
% 32.29/32.54 (step t7612 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t7582 t7586 t7611))
% 32.29/32.54 (step t7613 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) :rule or :premises (t7612))
% 32.29/32.54 (step t7614 (cl (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule reordering :premises (t7613))
% 32.29/32.54 (step t7615 (cl (not (= (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))))) (not (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.54 (step t7616 (cl (= (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.54 (step t7617 (cl (not (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv1 :premises (t7616))
% 32.29/32.54 (step t7618 (cl (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))))) :rule all_simplify)
% 32.29/32.54 (step t7619 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) :rule refl)
% 32.29/32.54 (step t7620 (cl (= (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) :rule all_simplify)
% 32.29/32.54 (step t7621 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t7619 t7620))
% 32.29/32.54 (step t7622 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) true)) :rule all_simplify)
% 32.29/32.54 (step t7623 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) true)) :rule trans :premises (t7621 t7622))
% 32.29/32.54 (step t7624 (cl (= (= (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) true)) :rule trans :premises (t7618 t7623))
% 32.29/32.54 (step t7625 (cl (= (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t7617 t7624))
% 32.29/32.54 (step t7626 (cl (= (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))))) :rule cong :premises (t2862 t7625 t2825))
% 32.29/32.54 (step t7627 (cl (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) :rule and_neg)
% 32.29/32.54 (step t7628 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7629)
% 32.29/32.54 (assume t7629.a0 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))
% 32.29/32.54 (assume t7629.a1 (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))
% 32.29/32.54 (step t7629.t1 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7629.t2)
% 32.29/32.54 (assume t7629.t2.a0 (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))
% 32.29/32.54 (assume t7629.t2.a1 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))
% 32.29/32.54 (step t7629.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) false) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.54 (step t7629.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) false)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv1 :premises (t7629.t2.t1))
% 32.29/32.54 (step t7629.t2.t3 (cl (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) :rule symm :premises (t7629.t2.a1))
% 32.29/32.54 (step t7629.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule symm :premises (t7629.t2.t3))
% 32.29/32.54 (step t7629.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule refl)
% 32.29/32.54 (step t7629.t2.t6 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) :rule cong :premises (t7629.t2.t4 t7629.t2.t5))
% 32.29/32.54 (step t7629.t2.t7 (cl (= (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) false) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.54 (step t7629.t2.t8 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv2 :premises (t7629.t2.t7))
% 32.29/32.54 (step t7629.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) :rule not_not)
% 32.29/32.54 (step t7629.t2.t10 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) false) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t7629.t2.t8 t7629.t2.t9))
% 32.29/32.54 (step t7629.t2.t11 (cl (= (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) false)) :rule resolution :premises (t7629.t2.t10 t7629.t2.a0))
% 32.29/32.54 (step t7629.t2.t12 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)) false)) :rule trans :premises (t7629.t2.t6 t7629.t2.t11))
% 32.29/32.54 (step t7629.t2.t13 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t7629.t2.t2 t7629.t2.t12))
% 32.29/32.54 (step t7629.t2 (cl (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule subproof :discharge (t7629.t2.a0 t7629.t2.a1))
% 32.29/32.54 (step t7629.t3 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.29/32.54 (step t7629.t4 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7629.t5 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t7629.t2 t7629.t3 t7629.t4))
% 32.29/32.54 (step t7629.t6 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule reordering :premises (t7629.t5))
% 32.29/32.54 (step t7629.t7 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t7629.t6))
% 32.29/32.54 (step t7629.t8 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t7629.t1 t7629.t7))
% 32.29/32.54 (step t7629.t9 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7629.t10 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t7629.t8 t7629.t9))
% 32.29/32.54 (step t7629.t11 (cl (=> (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t7629.t10))
% 32.29/32.54 (step t7629.t12 (cl (not (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies :premises (t7629.t11))
% 32.29/32.54 (step t7629.t13 (cl (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule and_neg)
% 32.29/32.54 (step t7629.t14 (cl (and (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t7629.t13 t7629.a1 t7629.a0))
% 32.29/32.54 (step t7629.t15 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t7629.t12 t7629.t14))
% 32.29/32.54 (step t7629 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule subproof :discharge (t7629.a0 t7629.a1))
% 32.29/32.54 (step t7630 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7631 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.29/32.54 (step t7632 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t7629 t7630 t7631))
% 32.29/32.54 (step t7633 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule reordering :premises (t7632))
% 32.29/32.54 (step t7634 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t7633))
% 32.29/32.54 (step t7635 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t7628 t7634))
% 32.29/32.54 (step t7636 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7637 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (=> (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t7635 t7636))
% 32.29/32.54 (step t7638 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t7637))
% 32.29/32.54 (step t7639 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies :premises (t7638))
% 32.29/32.54 (step t7640 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t7627 t7639))
% 32.29/32.54 (step t7641 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule or_neg)
% 32.29/32.54 (step t7642 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))))) :rule or_neg)
% 32.29/32.54 (step t7643 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule or_neg)
% 32.29/32.54 (step t7644 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t7640 t7641 t7642 t7643))
% 32.29/32.54 (step t7645 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t7644))
% 32.29/32.54 (step t7646 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t7615 t7626 t7645))
% 32.29/32.54 (step t7647 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12)))) :rule or :premises (t7646))
% 32.29/32.54 (step t7648 (cl (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t7647))
% 32.29/32.54 (step t7649 (cl (not (= (tptp.op1 tptp.e10 tptp.e14) (tptp.op1 tptp.e10 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.54 (step t7650 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) :rule resolution :premises (t7202 t7206 t7207 t7208 t7233 t6872 t6871 t6851 t6850 t5978 t864 t1679 t7253 t6872 t6851 t5978 t7279 t6872 t6871 t6851 t6850 t5978 t4658 t4707 t7301 t6872 t6871 t6851 t5978 t7327 t6872 t6871 t6851 t6850 t5978 t4536 t7328 t7351 t6872 t6871 t6851 t5978 t461 t865 t7373 t6872 t6871 t6851 t5978 t7395 t6872 t6871 t6851 t5978 t7415 t6850 t4706 t2311 t7439 t6872 t6851 t6850 t5978 t4442 t4468 t7460 t6850 t5978 t4420 t2193 t7481 t6851 t6850 t4515 t2312 t7502 t6851 t6850 t4680 t1382 t7526 t6872 t6851 t6850 t5978 t4632 t5239 t7547 t6850 t5978 t4610 t1381 t7563 t6850 t7581 t6872 t6851 t5978 t7614 t1950 t767 t768 t7648 t7649 t4363 t4365))
% 32.29/32.54 (step t7651 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t7650))
% 32.29/32.54 (step t7652 (cl (not (= (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))))) (not (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.54 (step t7653 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.54 (step t7654 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule equiv1 :premises (t7653))
% 32.29/32.54 (step t7655 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))))) :rule all_simplify)
% 32.29/32.54 (step t7656 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule refl)
% 32.29/32.54 (step t7657 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule all_simplify)
% 32.29/32.54 (step t7658 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule cong :premises (t7656 t7657))
% 32.29/32.54 (step t7659 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) true)) :rule all_simplify)
% 32.29/32.54 (step t7660 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) true)) :rule trans :premises (t7658 t7659))
% 32.29/32.54 (step t7661 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) true)) :rule trans :premises (t7655 t7660))
% 32.29/32.54 (step t7662 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7654 t7661))
% 32.29/32.54 (step t7663 (cl (= (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))))) :rule cong :premises (t7583 t7662 t4930))
% 32.29/32.54 (step t7664 (cl (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule and_neg)
% 32.29/32.54 (step t7665 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7666)
% 32.29/32.54 (assume t7666.a0 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.54 (assume t7666.a1 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))
% 32.29/32.54 (step t7666.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7666.t2)
% 32.29/32.54 (assume t7666.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))
% 32.29/32.54 (assume t7666.t2.a1 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.54 (step t7666.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) false) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.54 (step t7666.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) false)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule equiv1 :premises (t7666.t2.t1))
% 32.29/32.54 (step t7666.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) :rule symm :premises (t7666.t2.a1))
% 32.29/32.54 (step t7666.t2.t4 (cl (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t7666.t2.t3))
% 32.29/32.54 (step t7666.t2.t5 (cl (= (tptp.op1 tptp.e12 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) :rule refl)
% 32.29/32.54 (step t7666.t2.t6 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule cong :premises (t7666.t2.t4 t7666.t2.t5))
% 32.29/32.54 (step t7666.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.54 (step t7666.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) :rule equiv2 :premises (t7666.t2.t7))
% 32.29/32.54 (step t7666.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) :rule not_not)
% 32.29/32.54 (step t7666.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) :rule resolution :premises (t7666.t2.t8 t7666.t2.t9))
% 32.29/32.54 (step t7666.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) false)) :rule resolution :premises (t7666.t2.t10 t7666.t2.a0))
% 32.29/32.54 (step t7666.t2.t12 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) false)) :rule trans :premises (t7666.t2.t6 t7666.t2.t11))
% 32.29/32.54 (step t7666.t2.t13 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7666.t2.t2 t7666.t2.t12))
% 32.29/32.54 (step t7666.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t7666.t2.a0 t7666.t2.a1))
% 32.29/32.54 (step t7666.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule and_pos)
% 32.29/32.54 (step t7666.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.54 (step t7666.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t7666.t2 t7666.t3 t7666.t4))
% 32.29/32.54 (step t7666.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t7666.t5))
% 32.29/32.54 (step t7666.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t7666.t6))
% 32.29/32.54 (step t7666.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7666.t1 t7666.t7))
% 32.29/32.54 (step t7666.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7666.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7666.t8 t7666.t9))
% 32.29/32.54 (step t7666.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t7666.t10))
% 32.29/32.54 (step t7666.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t7666.t11))
% 32.29/32.54 (step t7666.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule and_neg)
% 32.29/32.54 (step t7666.t14 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t7666.t13 t7666.a1 t7666.a0))
% 32.29/32.54 (step t7666.t15 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7666.t12 t7666.t14))
% 32.29/32.54 (step t7666 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule subproof :discharge (t7666.a0 t7666.a1))
% 32.29/32.54 (step t7667 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.54 (step t7668 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule and_pos)
% 32.29/32.54 (step t7669 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))))) :rule resolution :premises (t7666 t7667 t7668))
% 32.29/32.54 (step t7670 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule reordering :premises (t7669))
% 32.29/32.54 (step t7671 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule contraction :premises (t7670))
% 32.29/32.54 (step t7672 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7665 t7671))
% 32.29/32.54 (step t7673 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule implies_neg2)
% 32.29/32.54 (step t7674 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7672 t7673))
% 32.29/32.54 (step t7675 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t7674))
% 32.29/32.54 (step t7676 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12))))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies :premises (t7675))
% 32.29/32.54 (step t7677 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t7664 t7676))
% 32.29/32.54 (step t7678 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule or_neg)
% 32.29/32.54 (step t7679 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))))) :rule or_neg)
% 32.29/32.54 (step t7680 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule or_neg)
% 32.29/32.54 (step t7681 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7677 t7678 t7679 t7680))
% 32.29/32.54 (step t7682 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule contraction :premises (t7681))
% 32.29/32.54 (step t7683 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t7652 t7663 t7682))
% 32.29/32.54 (step t7684 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)))) :rule or :premises (t7683))
% 32.29/32.54 (step t7685 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule reordering :premises (t7684))
% 32.29/32.54 (step t7686 (cl (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e12 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.54 (step t7687 (cl (or (= tptp.e24 (tptp.h4 tptp.e10)) (= tptp.e24 (tptp.h4 tptp.e11)) (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e13)) (= tptp.e24 (tptp.h4 tptp.e14))) (not (= tptp.e24 (tptp.h4 tptp.e12)))) :rule or_neg)
% 32.29/32.54 (step t7688 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.h4 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) :rule resolution :premises (t7651 t7685 t7686 t7687 t4359))
% 32.29/32.54 (step t7689 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e24 (tptp.h4 tptp.e12))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) :rule contraction :premises (t7688))
% 32.29/32.54 (step t7690 (cl (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) :rule or :premises (t3270))
% 32.29/32.54 (step t7691 (cl (or (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule and :premises (t1107))
% 32.29/32.54 (step t7692 (cl (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) :rule or :premises (t7691))
% 32.29/32.54 (step t7693 (cl (not (= (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.h4 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))))) (not (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.h4 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule equiv_pos2)
% 32.29/32.54 (step t7694 (cl (= (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))))) :rule refl)
% 32.29/32.54 (step t7695 (cl (= (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))))) :rule refl)
% 32.29/32.54 (step t7696 (cl (= (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule refl)
% 32.29/32.54 (step t7697 (cl (= (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.h4 tptp.e11))))) :rule refl)
% 32.29/32.54 (step t7698 (cl (= (= (= (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (= tptp.e24 (tptp.h4 tptp.e12))) true) (= (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (= tptp.e24 (tptp.h4 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.54 (step t7699 (cl (not (= (= (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (= tptp.e24 (tptp.h4 tptp.e12))) true)) (= (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (= tptp.e24 (tptp.h4 tptp.e12)))) :rule equiv1 :premises (t7698))
% 32.29/32.54 (step t7700 (cl (= (= (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (= tptp.e24 (tptp.h4 tptp.e12))) (= (= tptp.e24 (tptp.h4 tptp.e12)) (not (not (= tptp.e24 (tptp.h4 tptp.e12))))))) :rule all_simplify)
% 32.29/32.54 (step t7701 (cl (= (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e12)))) :rule refl)
% 32.29/32.54 (step t7702 (cl (= (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (= tptp.e24 (tptp.h4 tptp.e12)))) :rule all_simplify)
% 32.29/32.54 (step t7703 (cl (= (= (= tptp.e24 (tptp.h4 tptp.e12)) (not (not (= tptp.e24 (tptp.h4 tptp.e12))))) (= (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e12))))) :rule cong :premises (t7701 t7702))
% 32.29/32.54 (step t7704 (cl (= (= (= tptp.e24 (tptp.h4 tptp.e12)) (= tptp.e24 (tptp.h4 tptp.e12))) true)) :rule all_simplify)
% 32.29/32.54 (step t7705 (cl (= (= (= tptp.e24 (tptp.h4 tptp.e12)) (not (not (= tptp.e24 (tptp.h4 tptp.e12))))) true)) :rule trans :premises (t7703 t7704))
% 32.29/32.54 (step t7706 (cl (= (= (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (= tptp.e24 (tptp.h4 tptp.e12))) true)) :rule trans :premises (t7700 t7705))
% 32.29/32.54 (step t7707 (cl (= (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (= tptp.e24 (tptp.h4 tptp.e12)))) :rule resolution :premises (t7699 t7706))
% 32.29/32.54 (step t7708 (cl (= (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule refl)
% 32.29/32.54 (step t7709 (cl (= (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.h4 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))))) :rule cong :premises (t7694 t5632 t5940 t7695 t7696 t7697 t7707 t7708))
% 32.29/32.54 (step t7710 (cl (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12))))) :rule and_neg)
% 32.29/32.54 (step t7711 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7712)
% 32.29/32.54 (assume t7712.a0 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7712.a1 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (assume t7712.a2 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7712.a3 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7712.a4 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7712.a5 (= tptp.e21 (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7712.a6 (not (= tptp.e24 (tptp.h4 tptp.e12))))
% 32.29/32.54 (step t7712.t1 (cl (=> (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7712.t2)
% 32.29/32.54 (assume t7712.t2.a0 (not (= tptp.e24 (tptp.h4 tptp.e12))))
% 32.29/32.54 (assume t7712.t2.a1 (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)))
% 32.29/32.54 (assume t7712.t2.a2 (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)))
% 32.29/32.54 (assume t7712.t2.a3 (= tptp.e23 (tptp.h4 tptp.e14)))
% 32.29/32.54 (assume t7712.t2.a4 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7712.t2.a5 (= tptp.e21 (tptp.h4 tptp.e11)))
% 32.29/32.54 (assume t7712.t2.a6 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.54 (step t7712.t2.t1 (cl (= (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) false) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule equiv_simplify)
% 32.29/32.54 (step t7712.t2.t2 (cl (not (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) false)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule equiv1 :premises (t7712.t2.t1))
% 32.29/32.54 (step t7712.t2.t3 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.54 (step t7712.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t7712.t2.a6))
% 32.29/32.54 (step t7712.t2.t5 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t7712.t2.t4))
% 32.29/32.54 (step t7712.t2.t6 (cl (= (tptp.h4 tptp.e11) tptp.e21)) :rule symm :premises (t7712.t2.a5))
% 32.29/32.54 (step t7712.t2.t7 (cl (= tptp.e21 (tptp.h4 tptp.e11))) :rule symm :premises (t7712.t2.t6))
% 32.29/32.54 (step t7712.t2.t8 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)))) :rule cong :premises (t7712.t2.a3 t7712.t2.t7))
% 32.29/32.54 (step t7712.t2.t9 (cl (= (tptp.h4 tptp.e14) tptp.e23)) :rule symm :premises (t7712.t2.a3))
% 32.29/32.54 (step t7712.t2.t10 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t7712.t2.a4))
% 32.29/32.54 (step t7712.t2.t11 (cl (= (tptp.op2 (tptp.h4 tptp.e14) (tptp.h4 tptp.e11)) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule cong :premises (t7712.t2.t9 t7712.t2.t10))
% 32.29/32.54 (step t7712.t2.t12 (cl (= tptp.e20 (tptp.h4 tptp.e13))) :rule trans :premises (t7712.t2.t5 t7712.t2.t8 t7712.t2.t11 t7712.t2.a2))
% 32.29/32.54 (step t7712.t2.t13 (cl (= (tptp.h4 tptp.e13) (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule symm :premises (t7712.t2.a2))
% 32.29/32.54 (step t7712.t2.t14 (cl (= tptp.e20 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)))) :rule trans :premises (t7712.t2.t12 t7712.t2.t13))
% 32.29/32.54 (step t7712.t2.t15 (cl (= tptp.e23 tptp.e23)) :rule refl)
% 32.29/32.54 (step t7712.t2.t16 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule cong :premises (t7712.t2.t14 t7712.t2.t15))
% 32.29/32.54 (step t7712.t2.t17 (cl (= (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23) (tptp.h4 tptp.e12))) :rule symm :premises (t7712.t2.a1))
% 32.29/32.54 (step t7712.t2.t18 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.h4 tptp.e12))) :rule trans :premises (t7712.t2.t16 t7712.t2.t17))
% 32.29/32.54 (step t7712.t2.t19 (cl (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.h4 tptp.e12)))) :rule cong :premises (t7712.t2.t3 t7712.t2.t18))
% 32.29/32.54 (step t7712.t2.t20 (cl (= (= (= tptp.e24 (tptp.h4 tptp.e12)) false) (not (= tptp.e24 (tptp.h4 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.54 (step t7712.t2.t21 (cl (= (= tptp.e24 (tptp.h4 tptp.e12)) false) (not (not (= tptp.e24 (tptp.h4 tptp.e12))))) :rule equiv2 :premises (t7712.t2.t20))
% 32.29/32.54 (step t7712.t2.t22 (cl (not (not (not (= tptp.e24 (tptp.h4 tptp.e12))))) (= tptp.e24 (tptp.h4 tptp.e12))) :rule not_not)
% 32.29/32.54 (step t7712.t2.t23 (cl (= (= tptp.e24 (tptp.h4 tptp.e12)) false) (= tptp.e24 (tptp.h4 tptp.e12))) :rule resolution :premises (t7712.t2.t21 t7712.t2.t22))
% 32.29/32.54 (step t7712.t2.t24 (cl (= (= tptp.e24 (tptp.h4 tptp.e12)) false)) :rule resolution :premises (t7712.t2.t23 t7712.t2.a0))
% 32.29/32.54 (step t7712.t2.t25 (cl (= (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) false)) :rule trans :premises (t7712.t2.t19 t7712.t2.t24))
% 32.29/32.54 (step t7712.t2.t26 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule resolution :premises (t7712.t2.t2 t7712.t2.t25))
% 32.29/32.54 (step t7712.t2 (cl (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule subproof :discharge (t7712.t2.a0 t7712.t2.a1 t7712.t2.a2 t7712.t2.a3 t7712.t2.a4 t7712.t2.a5 t7712.t2.a6))
% 32.29/32.54 (step t7712.t3 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e24 (tptp.h4 tptp.e12)))) :rule and_pos)
% 32.29/32.54 (step t7712.t4 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7712.t5 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7712.t6 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7712.t7 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7712.t8 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e21 (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7712.t9 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7712.t10 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule resolution :premises (t7712.t2 t7712.t3 t7712.t4 t7712.t5 t7712.t6 t7712.t7 t7712.t8 t7712.t9))
% 32.29/32.54 (step t7712.t11 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule reordering :premises (t7712.t10))
% 32.29/32.54 (step t7712.t12 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule contraction :premises (t7712.t11))
% 32.29/32.54 (step t7712.t13 (cl (=> (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule resolution :premises (t7712.t1 t7712.t12))
% 32.29/32.54 (step t7712.t14 (cl (=> (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule implies_neg2)
% 32.29/32.54 (step t7712.t15 (cl (=> (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (=> (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule resolution :premises (t7712.t13 t7712.t14))
% 32.29/32.54 (step t7712.t16 (cl (=> (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule contraction :premises (t7712.t15))
% 32.29/32.54 (step t7712.t17 (cl (not (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule implies :premises (t7712.t16))
% 32.29/32.54 (step t7712.t18 (cl (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule and_neg)
% 32.29/32.54 (step t7712.t19 (cl (and (not (= tptp.e24 (tptp.h4 tptp.e12))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))) :rule resolution :premises (t7712.t18 t7712.a6 t7712.a0 t7712.a4 t7712.a2 t7712.a3 t7712.a5 t7712.a1))
% 32.29/32.54 (step t7712.t20 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule resolution :premises (t7712.t17 t7712.t19))
% 32.29/32.54 (step t7712 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule subproof :discharge (t7712.a0 t7712.a1 t7712.a2 t7712.a3 t7712.a4 t7712.a5 t7712.a6))
% 32.29/32.54 (step t7713 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) :rule and_pos)
% 32.29/32.54 (step t7714 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.54 (step t7715 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (= tptp.e23 (tptp.h4 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7716 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7717 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7718 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (= tptp.e21 (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7719 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (= tptp.e24 (tptp.h4 tptp.e12)))) :rule and_pos)
% 32.29/32.54 (step t7720 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12)))))) :rule resolution :premises (t7712 t7713 t7714 t7715 t7716 t7717 t7718 t7719))
% 32.29/32.54 (step t7721 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule reordering :premises (t7720))
% 32.29/32.54 (step t7722 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule contraction :premises (t7721))
% 32.29/32.54 (step t7723 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule resolution :premises (t7711 t7722))
% 32.29/32.54 (step t7724 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule implies_neg2)
% 32.29/32.54 (step t7725 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule resolution :premises (t7723 t7724))
% 32.29/32.54 (step t7726 (cl (=> (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule contraction :premises (t7725))
% 32.29/32.54 (step t7727 (cl (not (and (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e23 (tptp.h4 tptp.e14)) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e24 (tptp.h4 tptp.e12))))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule implies :premises (t7726))
% 32.29/32.54 (step t7728 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule resolution :premises (t7710 t7727))
% 32.29/32.54 (step t7729 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))))) :rule or_neg)
% 32.29/32.54 (step t7730 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))))) :rule or_neg)
% 32.29/32.54 (step t7731 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (= tptp.e23 (tptp.h4 tptp.e14))))) :rule or_neg)
% 32.29/32.54 (step t7732 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))))) :rule or_neg)
% 32.29/32.54 (step t7733 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))))) :rule or_neg)
% 32.29/32.54 (step t7734 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (= tptp.e21 (tptp.h4 tptp.e11))))) :rule or_neg)
% 32.29/32.54 (step t7735 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (not (= tptp.e24 (tptp.h4 tptp.e12)))))) :rule or_neg)
% 32.29/32.54 (step t7736 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (not (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule or_neg)
% 32.29/32.54 (step t7737 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule resolution :premises (t7728 t7729 t7730 t7731 t7732 t7733 t7734 t7735 t7736))
% 32.29/32.54 (step t7738 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (not (= tptp.e24 (tptp.h4 tptp.e12)))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule contraction :premises (t7737))
% 32.29/32.54 (step t7739 (cl (or (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.h4 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))))) :rule resolution :premises (t7693 t7709 t7738))
% 32.29/32.54 (step t7740 (cl (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.h4 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)))) :rule or :premises (t7739))
% 32.29/32.54 (step t7741 (cl (= tptp.e24 (tptp.h4 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e23 (tptp.h4 tptp.e14))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= (tptp.h4 tptp.e12) (tptp.op2 (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) tptp.e23))) (not (= (tptp.op2 tptp.e23 (tptp.op2 tptp.e23 tptp.e23)) (tptp.h4 tptp.e13))) (not (= tptp.e21 (tptp.h4 tptp.e11)))) :rule reordering :premises (t7740))
% 32.29/32.54 (step t7742 (cl (not (= (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (or (= tptp.e10 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))))) (not (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) (or (= tptp.e10 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.54 (step t7743 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))))) :rule refl)
% 32.29/32.54 (step t7744 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule refl)
% 32.29/32.54 (step t7745 (cl (= (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (or (= tptp.e10 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))))) :rule cong :premises (t2012 t7743 t7744))
% 32.29/32.54 (step t7746 (cl (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule and_neg)
% 32.29/32.54 (step t7747 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7748)
% 32.29/32.54 (assume t7748.a0 (not (= tptp.e10 tptp.e13)))
% 32.29/32.54 (assume t7748.a1 (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))
% 32.29/32.54 (step t7748.t1 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7748.t2)
% 32.29/32.54 (assume t7748.t2.a0 (not (= tptp.e10 tptp.e13)))
% 32.29/32.54 (assume t7748.t2.a1 (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))
% 32.29/32.54 (step t7748.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) false) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.54 (step t7748.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) false)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule equiv1 :premises (t7748.t2.t1))
% 32.29/32.54 (step t7748.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.54 (step t7748.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13)) :rule symm :premises (t7748.t2.a1))
% 32.29/32.54 (step t7748.t2.t5 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 tptp.e13))) :rule cong :premises (t7748.t2.t3 t7748.t2.t4))
% 32.29/32.54 (step t7748.t2.t6 (cl (= (= (= tptp.e10 tptp.e13) false) (not (= tptp.e10 tptp.e13)))) :rule equiv_simplify)
% 32.29/32.54 (step t7748.t2.t7 (cl (= (= tptp.e10 tptp.e13) false) (not (not (= tptp.e10 tptp.e13)))) :rule equiv2 :premises (t7748.t2.t6))
% 32.29/32.54 (step t7748.t2.t8 (cl (not (not (not (= tptp.e10 tptp.e13)))) (= tptp.e10 tptp.e13)) :rule not_not)
% 32.29/32.54 (step t7748.t2.t9 (cl (= (= tptp.e10 tptp.e13) false) (= tptp.e10 tptp.e13)) :rule resolution :premises (t7748.t2.t7 t7748.t2.t8))
% 32.29/32.54 (step t7748.t2.t10 (cl (= (= tptp.e10 tptp.e13) false)) :rule resolution :premises (t7748.t2.t9 t7748.t2.a0))
% 32.29/32.54 (step t7748.t2.t11 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) false)) :rule trans :premises (t7748.t2.t5 t7748.t2.t10))
% 32.29/32.54 (step t7748.t2.t12 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t7748.t2.t2 t7748.t2.t11))
% 32.29/32.54 (step t7748.t2 (cl (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule subproof :discharge (t7748.t2.a0 t7748.t2.a1))
% 32.29/32.54 (step t7748.t3 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7748.t4 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7748.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t7748.t2 t7748.t3 t7748.t4))
% 32.29/32.54 (step t7748.t6 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule reordering :premises (t7748.t5))
% 32.29/32.54 (step t7748.t7 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule contraction :premises (t7748.t6))
% 32.29/32.54 (step t7748.t8 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t7748.t1 t7748.t7))
% 32.29/32.54 (step t7748.t9 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule implies_neg2)
% 32.29/32.54 (step t7748.t10 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t7748.t8 t7748.t9))
% 32.29/32.54 (step t7748.t11 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule contraction :premises (t7748.t10))
% 32.29/32.54 (step t7748.t12 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies :premises (t7748.t11))
% 32.29/32.54 (step t7748.t13 (cl (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule and_neg)
% 32.29/32.54 (step t7748.t14 (cl (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t7748.t13 t7748.a0 t7748.a1))
% 32.29/32.54 (step t7748.t15 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t7748.t12 t7748.t14))
% 32.29/32.54 (step t7748 (cl (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule subproof :discharge (t7748.a0 t7748.a1))
% 32.29/32.54 (step t7749 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 tptp.e13))) :rule and_pos)
% 32.29/32.54 (step t7750 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7751 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t7748 t7749 t7750))
% 32.29/32.54 (step t7752 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule reordering :premises (t7751))
% 32.29/32.54 (step t7753 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule contraction :premises (t7752))
% 32.29/32.54 (step t7754 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t7747 t7753))
% 32.29/32.54 (step t7755 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule implies_neg2)
% 32.29/32.54 (step t7756 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t7754 t7755))
% 32.29/32.54 (step t7757 (cl (=> (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule contraction :premises (t7756))
% 32.29/32.54 (step t7758 (cl (not (and (not (= tptp.e10 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies :premises (t7757))
% 32.29/32.54 (step t7759 (cl (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t7746 t7758))
% 32.29/32.54 (step t7760 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (not (not (not (= tptp.e10 tptp.e13))))) :rule or_neg)
% 32.29/32.54 (step t7761 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))))) :rule or_neg)
% 32.29/32.54 (step t7762 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule or_neg)
% 32.29/32.54 (step t7763 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t7759 t7760 t7761 t7762))
% 32.29/32.54 (step t7764 (cl (or (not (not (= tptp.e10 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule contraction :premises (t7763))
% 32.29/32.54 (step t7765 (cl (or (= tptp.e10 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t7742 t7745 t7764))
% 32.29/32.54 (step t7766 (cl (= tptp.e10 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)))) :rule or :premises (t7765))
% 32.29/32.54 (step t7767 (cl (= tptp.e10 tptp.e13) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule reordering :premises (t7766))
% 32.29/32.54 (step t7768 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.54 (step t7769 (cl (= (= (= (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) true) (= (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.54 (step t7770 (cl (not (= (= (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) true)) (= (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t7769))
% 32.29/32.54 (step t7771 (cl (= (= (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))))) :rule all_simplify)
% 32.29/32.54 (step t7772 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule refl)
% 32.29/32.54 (step t7773 (cl (= (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule all_simplify)
% 32.29/32.54 (step t7774 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule cong :premises (t7772 t7773))
% 32.29/32.54 (step t7775 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) true)) :rule all_simplify)
% 32.29/32.54 (step t7776 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) true)) :rule trans :premises (t7774 t7775))
% 32.29/32.54 (step t7777 (cl (= (= (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) true)) :rule trans :premises (t7771 t7776))
% 32.29/32.54 (step t7778 (cl (= (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t7770 t7777))
% 32.29/32.54 (step t7779 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule cong :premises (t1111 t2244 t7778 t4860))
% 32.29/32.54 (step t7780 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule and_neg)
% 32.29/32.54 (step t7781 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7782)
% 32.29/32.54 (assume t7782.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.54 (assume t7782.a1 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))
% 32.29/32.54 (assume t7782.a2 (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))
% 32.29/32.54 (step t7782.t1 (cl (=> (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.54 (anchor :step t7782.t2)
% 32.29/32.54 (assume t7782.t2.a0 (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))
% 32.29/32.54 (assume t7782.t2.a1 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))
% 32.29/32.54 (assume t7782.t2.a2 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.54 (step t7782.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) false) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.54 (step t7782.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) false)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule equiv1 :premises (t7782.t2.t1))
% 32.29/32.54 (step t7782.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.54 (step t7782.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t7782.t2.a2))
% 32.29/32.54 (step t7782.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11)) :rule symm :premises (t7782.t2.a1))
% 32.29/32.54 (step t7782.t2.t6 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule symm :premises (t7782.t2.t5))
% 32.29/32.54 (step t7782.t2.t7 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e11))) :rule trans :premises (t7782.t2.t4 t7782.t2.t6))
% 32.29/32.54 (step t7782.t2.t8 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule cong :premises (t7782.t2.t3 t7782.t2.t7))
% 32.29/32.54 (step t7782.t2.t9 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.54 (step t7782.t2.t10 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv2 :premises (t7782.t2.t9))
% 32.29/32.54 (step t7782.t2.t11 (cl (not (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule not_not)
% 32.29/32.54 (step t7782.t2.t12 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t7782.t2.t10 t7782.t2.t11))
% 32.29/32.54 (step t7782.t2.t13 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false)) :rule resolution :premises (t7782.t2.t12 t7782.t2.a0))
% 32.29/32.54 (step t7782.t2.t14 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) false)) :rule trans :premises (t7782.t2.t8 t7782.t2.t13))
% 32.29/32.54 (step t7782.t2.t15 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t7782.t2.t2 t7782.t2.t14))
% 32.29/32.54 (step t7782.t2 (cl (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t7782.t2.a0 t7782.t2.a1 t7782.t2.a2))
% 32.29/32.54 (step t7782.t3 (cl (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.29/32.54 (step t7782.t4 (cl (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7782.t5 (cl (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7782.t6 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t7782.t2 t7782.t3 t7782.t4 t7782.t5))
% 32.29/32.54 (step t7782.t7 (cl (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t7782.t6))
% 32.29/32.54 (step t7782.t8 (cl (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t7782.t7))
% 32.29/32.54 (step t7782.t9 (cl (=> (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t7782.t1 t7782.t8))
% 32.29/32.54 (step t7782.t10 (cl (=> (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.54 (step t7782.t11 (cl (=> (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t7782.t9 t7782.t10))
% 32.29/32.54 (step t7782.t12 (cl (=> (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t7782.t11))
% 32.29/32.54 (step t7782.t13 (cl (not (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t7782.t12))
% 32.29/32.54 (step t7782.t14 (cl (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.54 (step t7782.t15 (cl (and (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t7782.t14 t7782.a2 t7782.a1 t7782.a0))
% 32.29/32.54 (step t7782.t16 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t7782.t13 t7782.t15))
% 32.29/32.54 (step t7782 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t7782.a0 t7782.a1 t7782.a2))
% 32.29/32.54 (step t7783 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.54 (step t7784 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.54 (step t7785 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule and_pos)
% 32.29/32.54 (step t7786 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))))) :rule resolution :premises (t7782 t7783 t7784 t7785))
% 32.29/32.54 (step t7787 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t7786))
% 32.29/32.54 (step t7788 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t7787))
% 32.29/32.54 (step t7789 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t7781 t7788))
% 32.29/32.54 (step t7790 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.54 (step t7791 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t7789 t7790))
% 32.29/32.54 (step t7792 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t7791))
% 32.29/32.54 (step t7793 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t7792))
% 32.29/32.54 (step t7794 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t7780 t7793))
% 32.29/32.54 (step t7795 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.54 (step t7796 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule or_neg)
% 32.29/32.54 (step t7797 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))))) :rule or_neg)
% 32.29/32.54 (step t7798 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.54 (step t7799 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t7794 t7795 t7796 t7797 t7798))
% 32.29/32.54 (step t7800 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t7799))
% 32.29/32.54 (step t7801 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t7768 t7779 t7800))
% 32.29/32.54 (step t7802 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule or :premises (t7801))
% 32.29/32.54 (step t7803 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t7802))
% 32.29/32.54 (step t7804 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t7689 t7690 t3272 t3298 t4361 t7692 t3948 t3950 t7741 t6872 t6871 t6851 t5978 t7767 t2039 t7803 t767))
% 32.29/32.55 (step t7805 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t7804))
% 32.29/32.55 (step t7806 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.55 (step t7807 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule refl)
% 32.29/32.55 (step t7808 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t7809 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule equiv1 :premises (t7808))
% 32.29/32.55 (step t7810 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))))) :rule all_simplify)
% 32.29/32.55 (step t7811 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule refl)
% 32.29/32.55 (step t7812 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule all_simplify)
% 32.29/32.55 (step t7813 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule cong :premises (t7811 t7812))
% 32.29/32.55 (step t7814 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) true)) :rule all_simplify)
% 32.29/32.55 (step t7815 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) true)) :rule trans :premises (t7813 t7814))
% 32.29/32.55 (step t7816 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) true)) :rule trans :premises (t7810 t7815))
% 32.29/32.55 (step t7817 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t7809 t7816))
% 32.29/32.55 (step t7818 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule refl)
% 32.29/32.55 (step t7819 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))))) :rule cong :premises (t1111 t1415 t5088 t7807 t1114 t7584 t7817 t7818))
% 32.29/32.55 (step t7820 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule and_neg)
% 32.29/32.55 (step t7821 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7822)
% 32.29/32.55 (assume t7822.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t7822.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t7822.a2 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))
% 32.29/32.55 (assume t7822.a3 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (assume t7822.a4 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (assume t7822.a5 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t7822.a6 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))
% 32.29/32.55 (step t7822.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7822.t2)
% 32.29/32.55 (assume t7822.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))
% 32.29/32.55 (assume t7822.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.55 (assume t7822.t2.a2 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))
% 32.29/32.55 (assume t7822.t2.a3 (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))
% 32.29/32.55 (assume t7822.t2.a4 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))
% 32.29/32.55 (step t7822.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) false) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.55 (step t7822.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) false)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule equiv1 :premises (t7822.t2.t1))
% 32.29/32.55 (step t7822.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) :rule symm :premises (t7822.t2.a1))
% 32.29/32.55 (step t7822.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule symm :premises (t7822.t2.t3))
% 32.29/32.55 (step t7822.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule symm :premises (t7822.t2.a3))
% 32.29/32.55 (step t7822.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13)) :rule symm :premises (t7822.t2.a2))
% 32.29/32.55 (step t7822.t2.t7 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule symm :premises (t7822.t2.t6))
% 32.29/32.55 (step t7822.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t7822.t2.t5 t7822.t2.t7))
% 32.29/32.55 (step t7822.t2.t9 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e14 tptp.e11))) :rule symm :premises (t7822.t2.t8))
% 32.29/32.55 (step t7822.t2.t10 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13)) :rule symm :premises (t7822.t2.a4))
% 32.29/32.55 (step t7822.t2.t11 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t7822.t2.t10 t7822.t2.a3))
% 32.29/32.55 (step t7822.t2.t12 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e11 tptp.e12))) :rule symm :premises (t7822.t2.t11))
% 32.29/32.55 (step t7822.t2.t13 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e12))) :rule trans :premises (t7822.t2.t9 t7822.t2.t12))
% 32.29/32.55 (step t7822.t2.t14 (cl (= (tptp.op1 tptp.e11 tptp.e12) (tptp.op1 tptp.e13 tptp.e10))) :rule symm :premises (t7822.t2.t13))
% 32.29/32.55 (step t7822.t2.t15 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule cong :premises (t7822.t2.t4 t7822.t2.t14))
% 32.29/32.55 (step t7822.t2.t16 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) false) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t7822.t2.t17 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv2 :premises (t7822.t2.t16))
% 32.29/32.55 (step t7822.t2.t18 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) :rule not_not)
% 32.29/32.55 (step t7822.t2.t19 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) false) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t7822.t2.t17 t7822.t2.t18))
% 32.29/32.55 (step t7822.t2.t20 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) false)) :rule resolution :premises (t7822.t2.t19 t7822.t2.a0))
% 32.29/32.55 (step t7822.t2.t21 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) false)) :rule trans :premises (t7822.t2.t15 t7822.t2.t20))
% 32.29/32.55 (step t7822.t2.t22 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t7822.t2.t2 t7822.t2.t21))
% 32.29/32.55 (step t7822.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule subproof :discharge (t7822.t2.a0 t7822.t2.a1 t7822.t2.a2 t7822.t2.a3 t7822.t2.a4))
% 32.29/32.55 (step t7822.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t7822.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t7822.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t7822.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t7822.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.55 (step t7822.t8 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t7822.t2 t7822.t3 t7822.t4 t7822.t5 t7822.t6 t7822.t7))
% 32.29/32.55 (step t7822.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule reordering :premises (t7822.t8))
% 32.29/32.55 (step t7822.t10 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t7822.t9))
% 32.29/32.55 (step t7822.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t7822.t1 t7822.t10))
% 32.29/32.55 (step t7822.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg2)
% 32.29/32.55 (step t7822.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t7822.t11 t7822.t12))
% 32.29/32.55 (step t7822.t14 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule contraction :premises (t7822.t13))
% 32.29/32.55 (step t7822.t15 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies :premises (t7822.t14))
% 32.29/32.55 (step t7822.t16 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule and_neg)
% 32.29/32.55 (step t7822.t17 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7822.t18)
% 32.29/32.55 (assume t7822.t18.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t7822.t18.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (step t7822.t18.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t7822.t18.a1))
% 32.29/32.55 (step t7822.t18.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t7822.t18.t1))
% 32.29/32.55 (step t7822.t18.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t7822.t18.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7822.t18.a0))
% 32.29/32.55 (step t7822.t18.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7822.t18.t4))
% 32.29/32.55 (step t7822.t18.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7822.t18.t5))
% 32.29/32.55 (step t7822.t18.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e10))) :rule cong :premises (t7822.t18.t3 t7822.t18.t6))
% 32.29/32.55 (step t7822.t18.t8 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule trans :premises (t7822.t18.t2 t7822.t18.t7))
% 32.29/32.55 (step t7822.t18 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule subproof :discharge (t7822.t18.a0 t7822.t18.a1))
% 32.29/32.55 (step t7822.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t7822.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t7822.t21 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t7822.t18 t7822.t19 t7822.t20))
% 32.29/32.55 (step t7822.t22 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule reordering :premises (t7822.t21))
% 32.29/32.55 (step t7822.t23 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule contraction :premises (t7822.t22))
% 32.29/32.55 (step t7822.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t7822.t17 t7822.t23))
% 32.29/32.55 (step t7822.t25 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t7822.t26 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t7822.t24 t7822.t25))
% 32.29/32.55 (step t7822.t27 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t7822.t26))
% 32.29/32.55 (step t7822.t28 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule implies :premises (t7822.t27))
% 32.29/32.55 (step t7822.t29 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t7822.t30 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t7822.t29 t7822.a5 t7822.a4))
% 32.29/32.55 (step t7822.t31 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t7822.t28 t7822.t30))
% 32.29/32.55 (step t7822.t32 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7822.t33)
% 32.29/32.55 (assume t7822.t33.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t7822.t33.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (step t7822.t33.t1 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t7822.t33.a1))
% 32.29/32.55 (step t7822.t33.t2 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule symm :premises (t7822.t33.t1))
% 32.29/32.55 (step t7822.t33.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.55 (step t7822.t33.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7822.t33.a0))
% 32.29/32.55 (step t7822.t33.t5 (cl (= (tptp.op1 tptp.e13 tptp.unit1) (tptp.op1 tptp.e13 tptp.e10))) :rule cong :premises (t7822.t33.t3 t7822.t33.t4))
% 32.29/32.55 (step t7822.t33.t6 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t7822.t33.t2 t7822.t33.t5))
% 32.29/32.55 (step t7822.t33 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t7822.t33.a0 t7822.t33.a1))
% 32.29/32.55 (step t7822.t34 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t7822.t35 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t7822.t36 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule resolution :premises (t7822.t33 t7822.t34 t7822.t35))
% 32.29/32.55 (step t7822.t37 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t7822.t36))
% 32.29/32.55 (step t7822.t38 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t7822.t37))
% 32.29/32.55 (step t7822.t39 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t7822.t32 t7822.t38))
% 32.29/32.55 (step t7822.t40 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t7822.t41 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t7822.t39 t7822.t40))
% 32.29/32.55 (step t7822.t42 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t7822.t41))
% 32.29/32.55 (step t7822.t43 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t7822.t42))
% 32.29/32.55 (step t7822.t44 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t7822.t45 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule resolution :premises (t7822.t44 t7822.a5 t7822.a3))
% 32.29/32.55 (step t7822.t46 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t7822.t43 t7822.t45))
% 32.29/32.55 (step t7822.t47 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7822.t48)
% 32.29/32.55 (assume t7822.t48.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t7822.t48.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (step t7822.t48.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t7822.t48.a1))
% 32.29/32.55 (step t7822.t48.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t7822.t48.t1))
% 32.29/32.55 (step t7822.t48.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t7822.t48.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t7822.t48.a0))
% 32.29/32.55 (step t7822.t48.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op1 tptp.e14 tptp.e11))) :rule cong :premises (t7822.t48.t3 t7822.t48.t4))
% 32.29/32.55 (step t7822.t48.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t7822.t48.t2 t7822.t48.t5))
% 32.29/32.55 (step t7822.t48 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule subproof :discharge (t7822.t48.a0 t7822.t48.a1))
% 32.29/32.55 (step t7822.t49 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7822.t50 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t7822.t51 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t7822.t48 t7822.t49 t7822.t50))
% 32.29/32.55 (step t7822.t52 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule reordering :premises (t7822.t51))
% 32.29/32.55 (step t7822.t53 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule contraction :premises (t7822.t52))
% 32.29/32.55 (step t7822.t54 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t7822.t47 t7822.t53))
% 32.29/32.55 (step t7822.t55 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg2)
% 32.29/32.55 (step t7822.t56 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t7822.t54 t7822.t55))
% 32.29/32.55 (step t7822.t57 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t7822.t56))
% 32.29/32.55 (step t7822.t58 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule implies :premises (t7822.t57))
% 32.29/32.55 (step t7822.t59 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.55 (step t7822.t60 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t7822.t59 t7822.a0 t7822.a1))
% 32.29/32.55 (step t7822.t61 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t7822.t58 t7822.t60))
% 32.29/32.55 (step t7822.t62 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t7822.t16 t7822.a6 t7822.t31 t7822.t46 t7822.t61 t7822.a2))
% 32.29/32.55 (step t7822.t63 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t7822.t15 t7822.t62))
% 32.29/32.55 (step t7822 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule subproof :discharge (t7822.a0 t7822.a1 t7822.a2 t7822.a3 t7822.a4 t7822.a5 t7822.a6))
% 32.29/32.55 (step t7823 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7824 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t7825 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.55 (step t7826 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t7827 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t7828 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t7829 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t7830 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))))) :rule resolution :premises (t7822 t7823 t7824 t7825 t7826 t7827 t7828 t7829))
% 32.29/32.55 (step t7831 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule reordering :premises (t7830))
% 32.29/32.55 (step t7832 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t7831))
% 32.29/32.55 (step t7833 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t7821 t7832))
% 32.29/32.55 (step t7834 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg2)
% 32.29/32.55 (step t7835 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t7833 t7834))
% 32.29/32.55 (step t7836 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule contraction :premises (t7835))
% 32.29/32.55 (step t7837 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies :premises (t7836))
% 32.29/32.55 (step t7838 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t7820 t7837))
% 32.29/32.55 (step t7839 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t7840 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.55 (step t7841 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule or_neg)
% 32.29/32.55 (step t7842 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t7843 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t7844 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t7845 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))))) :rule or_neg)
% 32.29/32.55 (step t7846 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule or_neg)
% 32.29/32.55 (step t7847 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t7838 t7839 t7840 t7841 t7842 t7843 t7844 t7845 t7846))
% 32.29/32.55 (step t7848 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule contraction :premises (t7847))
% 32.29/32.55 (step t7849 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t7806 t7819 t7848))
% 32.29/32.55 (step t7850 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)))) :rule or :premises (t7849))
% 32.29/32.55 (step t7851 (cl (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t7850))
% 32.29/32.55 (step t7852 (cl (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule and :premises (t1360))
% 32.29/32.55 (step t7853 (cl (not (= (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))))) (not (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule equiv_pos2)
% 32.29/32.55 (step t7854 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule refl)
% 32.29/32.55 (step t7855 (cl (= (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))))) :rule cong :premises (t3446 t3578 t7854))
% 32.29/32.55 (step t7856 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule and_neg)
% 32.29/32.55 (step t7857 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7858)
% 32.29/32.55 (assume t7858.a0 (not (= tptp.e10 tptp.e12)))
% 32.29/32.55 (assume t7858.a1 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))
% 32.29/32.55 (step t7858.t1 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7858.t2)
% 32.29/32.55 (assume t7858.t2.a0 (not (= tptp.e10 tptp.e12)))
% 32.29/32.55 (assume t7858.t2.a1 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))
% 32.29/32.55 (step t7858.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) false) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule equiv_simplify)
% 32.29/32.55 (step t7858.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) false)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule equiv1 :premises (t7858.t2.t1))
% 32.29/32.55 (step t7858.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.55 (step t7858.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12)) :rule symm :premises (t7858.t2.a1))
% 32.29/32.55 (step t7858.t2.t5 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 tptp.e12))) :rule cong :premises (t7858.t2.t3 t7858.t2.t4))
% 32.29/32.55 (step t7858.t2.t6 (cl (= (= (= tptp.e10 tptp.e12) false) (not (= tptp.e10 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.55 (step t7858.t2.t7 (cl (= (= tptp.e10 tptp.e12) false) (not (not (= tptp.e10 tptp.e12)))) :rule equiv2 :premises (t7858.t2.t6))
% 32.29/32.55 (step t7858.t2.t8 (cl (not (not (not (= tptp.e10 tptp.e12)))) (= tptp.e10 tptp.e12)) :rule not_not)
% 32.29/32.55 (step t7858.t2.t9 (cl (= (= tptp.e10 tptp.e12) false) (= tptp.e10 tptp.e12)) :rule resolution :premises (t7858.t2.t7 t7858.t2.t8))
% 32.29/32.55 (step t7858.t2.t10 (cl (= (= tptp.e10 tptp.e12) false)) :rule resolution :premises (t7858.t2.t9 t7858.t2.a0))
% 32.29/32.55 (step t7858.t2.t11 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) false)) :rule trans :premises (t7858.t2.t5 t7858.t2.t10))
% 32.29/32.55 (step t7858.t2.t12 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t7858.t2.t2 t7858.t2.t11))
% 32.29/32.55 (step t7858.t2 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule subproof :discharge (t7858.t2.a0 t7858.t2.a1))
% 32.29/32.55 (step t7858.t3 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.55 (step t7858.t4 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.29/32.55 (step t7858.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t7858.t2 t7858.t3 t7858.t4))
% 32.29/32.55 (step t7858.t6 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule reordering :premises (t7858.t5))
% 32.29/32.55 (step t7858.t7 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule contraction :premises (t7858.t6))
% 32.29/32.55 (step t7858.t8 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t7858.t1 t7858.t7))
% 32.29/32.55 (step t7858.t9 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule implies_neg2)
% 32.29/32.55 (step t7858.t10 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t7858.t8 t7858.t9))
% 32.29/32.55 (step t7858.t11 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule contraction :premises (t7858.t10))
% 32.29/32.55 (step t7858.t12 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule implies :premises (t7858.t11))
% 32.29/32.55 (step t7858.t13 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule and_neg)
% 32.29/32.55 (step t7858.t14 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t7858.t13 t7858.a0 t7858.a1))
% 32.29/32.55 (step t7858.t15 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t7858.t12 t7858.t14))
% 32.29/32.55 (step t7858 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule subproof :discharge (t7858.a0 t7858.a1))
% 32.29/32.55 (step t7859 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.55 (step t7860 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.29/32.55 (step t7861 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t7858 t7859 t7860))
% 32.29/32.55 (step t7862 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule reordering :premises (t7861))
% 32.29/32.55 (step t7863 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule contraction :premises (t7862))
% 32.29/32.55 (step t7864 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t7857 t7863))
% 32.29/32.55 (step t7865 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule implies_neg2)
% 32.29/32.55 (step t7866 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t7864 t7865))
% 32.29/32.55 (step t7867 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule contraction :premises (t7866))
% 32.29/32.55 (step t7868 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule implies :premises (t7867))
% 32.29/32.55 (step t7869 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t7856 t7868))
% 32.29/32.55 (step t7870 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (not (not (= tptp.e10 tptp.e12))))) :rule or_neg)
% 32.29/32.55 (step t7871 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))))) :rule or_neg)
% 32.29/32.55 (step t7872 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule or_neg)
% 32.29/32.55 (step t7873 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t7869 t7870 t7871 t7872))
% 32.29/32.55 (step t7874 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule contraction :premises (t7873))
% 32.29/32.55 (step t7875 (cl (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t7853 t7855 t7874))
% 32.29/32.55 (step t7876 (cl (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)))) :rule or :premises (t7875))
% 32.29/32.55 (step t7877 (cl (= tptp.e10 tptp.e12) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule reordering :premises (t7876))
% 32.29/32.55 (step t7878 (cl (not (= (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (or (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))))) (not (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) (or (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.55 (step t7879 (cl (= (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (or (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))))) :rule cong :premises (t3526 t3709 t4901))
% 32.29/32.55 (step t7880 (cl (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t7881 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7882)
% 32.29/32.55 (assume t7882.a0 (not (= tptp.e11 tptp.e12)))
% 32.29/32.55 (assume t7882.a1 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.55 (step t7882.t1 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7882.t2)
% 32.29/32.55 (assume t7882.t2.a0 (not (= tptp.e11 tptp.e12)))
% 32.29/32.55 (assume t7882.t2.a1 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.55 (step t7882.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) false) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t7882.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) false)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule equiv1 :premises (t7882.t2.t1))
% 32.29/32.55 (step t7882.t2.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.55 (step t7882.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12)) :rule symm :premises (t7882.t2.a1))
% 32.29/32.55 (step t7882.t2.t5 (cl (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 tptp.e12))) :rule cong :premises (t7882.t2.t3 t7882.t2.t4))
% 32.29/32.55 (step t7882.t2.t6 (cl (= (= (= tptp.e11 tptp.e12) false) (not (= tptp.e11 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.55 (step t7882.t2.t7 (cl (= (= tptp.e11 tptp.e12) false) (not (not (= tptp.e11 tptp.e12)))) :rule equiv2 :premises (t7882.t2.t6))
% 32.29/32.55 (step t7882.t2.t8 (cl (not (not (not (= tptp.e11 tptp.e12)))) (= tptp.e11 tptp.e12)) :rule not_not)
% 32.29/32.55 (step t7882.t2.t9 (cl (= (= tptp.e11 tptp.e12) false) (= tptp.e11 tptp.e12)) :rule resolution :premises (t7882.t2.t7 t7882.t2.t8))
% 32.29/32.55 (step t7882.t2.t10 (cl (= (= tptp.e11 tptp.e12) false)) :rule resolution :premises (t7882.t2.t9 t7882.t2.a0))
% 32.29/32.55 (step t7882.t2.t11 (cl (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) false)) :rule trans :premises (t7882.t2.t5 t7882.t2.t10))
% 32.29/32.55 (step t7882.t2.t12 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7882.t2.t2 t7882.t2.t11))
% 32.29/32.55 (step t7882.t2 (cl (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t7882.t2.a0 t7882.t2.a1))
% 32.29/32.55 (step t7882.t3 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.55 (step t7882.t4 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t7882.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7882.t2 t7882.t3 t7882.t4))
% 32.29/32.55 (step t7882.t6 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t7882.t5))
% 32.29/32.55 (step t7882.t7 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t7882.t6))
% 32.29/32.55 (step t7882.t8 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7882.t1 t7882.t7))
% 32.29/32.55 (step t7882.t9 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t7882.t10 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7882.t8 t7882.t9))
% 32.29/32.55 (step t7882.t11 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t7882.t10))
% 32.29/32.55 (step t7882.t12 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t7882.t11))
% 32.29/32.55 (step t7882.t13 (cl (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t7882.t14 (cl (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7882.t13 t7882.a0 t7882.a1))
% 32.29/32.55 (step t7882.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7882.t12 t7882.t14))
% 32.29/32.55 (step t7882 (cl (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t7882.a0 t7882.a1))
% 32.29/32.55 (step t7883 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 tptp.e12))) :rule and_pos)
% 32.29/32.55 (step t7884 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t7885 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7882 t7883 t7884))
% 32.29/32.55 (step t7886 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t7885))
% 32.29/32.55 (step t7887 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t7886))
% 32.29/32.55 (step t7888 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7881 t7887))
% 32.29/32.55 (step t7889 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t7890 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7888 t7889))
% 32.29/32.55 (step t7891 (cl (=> (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t7890))
% 32.29/32.55 (step t7892 (cl (not (and (not (= tptp.e11 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t7891))
% 32.29/32.55 (step t7893 (cl (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7880 t7892))
% 32.29/32.55 (step t7894 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (not (= tptp.e11 tptp.e12))))) :rule or_neg)
% 32.29/32.55 (step t7895 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t7896 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t7897 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7893 t7894 t7895 t7896))
% 32.29/32.55 (step t7898 (cl (or (not (not (= tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t7897))
% 32.29/32.55 (step t7899 (cl (or (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7878 t7879 t7898))
% 32.29/32.55 (step t7900 (cl (= tptp.e11 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) :rule or :premises (t7899))
% 32.29/32.55 (step t7901 (cl (= tptp.e11 tptp.e12) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t7900))
% 32.29/32.55 (step t7902 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7805 t7851 t799 t767 t7852 t1381 t5239 t7877 t3472 t7901 t3575))
% 32.29/32.55 (step t7903 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t7902))
% 32.29/32.55 (step t7904 (cl (not (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))))) (not (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.55 (step t7905 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t7906 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule equiv1 :premises (t7905))
% 32.29/32.55 (step t7907 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))))) :rule all_simplify)
% 32.29/32.55 (step t7908 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule refl)
% 32.29/32.55 (step t7909 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule all_simplify)
% 32.29/32.55 (step t7910 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t7908 t7909))
% 32.29/32.55 (step t7911 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) true)) :rule all_simplify)
% 32.29/32.55 (step t7912 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) true)) :rule trans :premises (t7910 t7911))
% 32.29/32.55 (step t7913 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) true)) :rule trans :premises (t7907 t7912))
% 32.29/32.55 (step t7914 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t7906 t7913))
% 32.29/32.55 (step t7915 (cl (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))))) :rule cong :premises (t1414 t1415 t3709 t4929 t1114 t7584 t7914 t3708))
% 32.29/32.55 (step t7916 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) :rule and_neg)
% 32.29/32.55 (step t7917 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7918)
% 32.29/32.55 (assume t7918.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.55 (assume t7918.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t7918.a2 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.55 (assume t7918.a3 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.55 (assume t7918.a4 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (assume t7918.a5 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t7918.a6 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))
% 32.29/32.55 (step t7918.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7918.t2)
% 32.29/32.55 (assume t7918.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))
% 32.29/32.55 (assume t7918.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.55 (assume t7918.t2.a2 (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))
% 32.29/32.55 (assume t7918.t2.a3 (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))
% 32.29/32.55 (assume t7918.t2.a4 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))
% 32.29/32.55 (step t7918.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) false) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t7918.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) false)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule equiv1 :premises (t7918.t2.t1))
% 32.29/32.55 (step t7918.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) :rule symm :premises (t7918.t2.a1))
% 32.29/32.55 (step t7918.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule symm :premises (t7918.t2.t3))
% 32.29/32.55 (step t7918.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule symm :premises (t7918.t2.a3))
% 32.29/32.55 (step t7918.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12)) :rule symm :premises (t7918.t2.a2))
% 32.29/32.55 (step t7918.t2.t7 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule symm :premises (t7918.t2.t6))
% 32.29/32.55 (step t7918.t2.t8 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e12 tptp.e10))) :rule trans :premises (t7918.t2.t5 t7918.t2.t7))
% 32.29/32.55 (step t7918.t2.t9 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e13 tptp.e14))) :rule symm :premises (t7918.t2.t8))
% 32.29/32.55 (step t7918.t2.t10 (cl (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12)) :rule symm :premises (t7918.t2.a4))
% 32.29/32.55 (step t7918.t2.t11 (cl (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t7918.t2.t10 t7918.t2.a3))
% 32.29/32.55 (step t7918.t2.t12 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e11 tptp.e11))) :rule symm :premises (t7918.t2.t11))
% 32.29/32.55 (step t7918.t2.t13 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e11))) :rule trans :premises (t7918.t2.t9 t7918.t2.t12))
% 32.29/32.55 (step t7918.t2.t14 (cl (= (tptp.op1 tptp.e11 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) :rule symm :premises (t7918.t2.t13))
% 32.29/32.55 (step t7918.t2.t15 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule cong :premises (t7918.t2.t4 t7918.t2.t14))
% 32.29/32.55 (step t7918.t2.t16 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) false) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t7918.t2.t17 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv2 :premises (t7918.t2.t16))
% 32.29/32.55 (step t7918.t2.t18 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) :rule not_not)
% 32.29/32.55 (step t7918.t2.t19 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) false) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t7918.t2.t17 t7918.t2.t18))
% 32.29/32.55 (step t7918.t2.t20 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) false)) :rule resolution :premises (t7918.t2.t19 t7918.t2.a0))
% 32.29/32.55 (step t7918.t2.t21 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) false)) :rule trans :premises (t7918.t2.t15 t7918.t2.t20))
% 32.29/32.55 (step t7918.t2.t22 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7918.t2.t2 t7918.t2.t21))
% 32.29/32.55 (step t7918.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t7918.t2.a0 t7918.t2.a1 t7918.t2.a2 t7918.t2.a3 t7918.t2.a4))
% 32.29/32.55 (step t7918.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t7918.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t7918.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t7918.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7918.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t7918.t8 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7918.t2 t7918.t3 t7918.t4 t7918.t5 t7918.t6 t7918.t7))
% 32.29/32.55 (step t7918.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t7918.t8))
% 32.29/32.55 (step t7918.t10 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t7918.t9))
% 32.29/32.55 (step t7918.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7918.t1 t7918.t10))
% 32.29/32.55 (step t7918.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t7918.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7918.t11 t7918.t12))
% 32.29/32.55 (step t7918.t14 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t7918.t13))
% 32.29/32.55 (step t7918.t15 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t7918.t14))
% 32.29/32.55 (step t7918.t16 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t7918.t17 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7918.t18)
% 32.29/32.55 (assume t7918.t18.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t7918.t18.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (step t7918.t18.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t7918.t18.a1))
% 32.29/32.55 (step t7918.t18.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t7918.t18.t1))
% 32.29/32.55 (step t7918.t18.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t7918.t18.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7918.t18.a0))
% 32.29/32.55 (step t7918.t18.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7918.t18.t4))
% 32.29/32.55 (step t7918.t18.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7918.t18.t5))
% 32.29/32.55 (step t7918.t18.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e10))) :rule cong :premises (t7918.t18.t3 t7918.t18.t6))
% 32.29/32.55 (step t7918.t18.t8 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule trans :premises (t7918.t18.t2 t7918.t18.t7))
% 32.29/32.55 (step t7918.t18 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule subproof :discharge (t7918.t18.a0 t7918.t18.a1))
% 32.29/32.55 (step t7918.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t7918.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t7918.t21 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t7918.t18 t7918.t19 t7918.t20))
% 32.29/32.55 (step t7918.t22 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule reordering :premises (t7918.t21))
% 32.29/32.55 (step t7918.t23 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule contraction :premises (t7918.t22))
% 32.29/32.55 (step t7918.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t7918.t17 t7918.t23))
% 32.29/32.55 (step t7918.t25 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t7918.t26 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t7918.t24 t7918.t25))
% 32.29/32.55 (step t7918.t27 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t7918.t26))
% 32.29/32.55 (step t7918.t28 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule implies :premises (t7918.t27))
% 32.29/32.55 (step t7918.t29 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t7918.t30 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t7918.t29 t7918.a5 t7918.a4))
% 32.29/32.55 (step t7918.t31 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t7918.t28 t7918.t30))
% 32.29/32.55 (step t7918.t32 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7918.t33)
% 32.29/32.55 (assume t7918.t33.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t7918.t33.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.55 (step t7918.t33.t1 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t7918.t33.a1))
% 32.29/32.55 (step t7918.t33.t2 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule symm :premises (t7918.t33.t1))
% 32.29/32.55 (step t7918.t33.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.55 (step t7918.t33.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7918.t33.a0))
% 32.29/32.55 (step t7918.t33.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t7918.t33.t4))
% 32.29/32.55 (step t7918.t33.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t7918.t33.t5))
% 32.29/32.55 (step t7918.t33.t7 (cl (= (tptp.op1 tptp.e12 tptp.unit1) (tptp.op1 tptp.e12 tptp.e10))) :rule cong :premises (t7918.t33.t3 t7918.t33.t6))
% 32.29/32.55 (step t7918.t33.t8 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule trans :premises (t7918.t33.t2 t7918.t33.t7))
% 32.29/32.55 (step t7918.t33 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule subproof :discharge (t7918.t33.a0 t7918.t33.a1))
% 32.29/32.55 (step t7918.t34 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t7918.t35 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t7918.t36 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule resolution :premises (t7918.t33 t7918.t34 t7918.t35))
% 32.29/32.55 (step t7918.t37 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule reordering :premises (t7918.t36))
% 32.29/32.55 (step t7918.t38 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule contraction :premises (t7918.t37))
% 32.29/32.55 (step t7918.t39 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t7918.t32 t7918.t38))
% 32.29/32.55 (step t7918.t40 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t7918.t41 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t7918.t39 t7918.t40))
% 32.29/32.55 (step t7918.t42 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t7918.t41))
% 32.29/32.55 (step t7918.t43 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule implies :premises (t7918.t42))
% 32.29/32.55 (step t7918.t44 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t7918.t45 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule resolution :premises (t7918.t44 t7918.a5 t7918.a3))
% 32.29/32.55 (step t7918.t46 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t7918.t43 t7918.t45))
% 32.29/32.55 (step t7918.t47 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7918.t48)
% 32.29/32.55 (assume t7918.t48.a0 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t7918.t48.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.55 (step t7918.t48.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t7918.t48.a1))
% 32.29/32.55 (step t7918.t48.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t7918.t48.t1))
% 32.29/32.55 (step t7918.t48.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t7918.t48.a0))
% 32.29/32.55 (step t7918.t48.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t7918.t48.t3))
% 32.29/32.55 (step t7918.t48.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t7918.t48.t4))
% 32.29/32.55 (step t7918.t48.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t7918.t48.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t7918.t48.t5 t7918.t48.t6))
% 32.29/32.55 (step t7918.t48.t8 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t7918.t48.t2 t7918.t48.t7))
% 32.29/32.55 (step t7918.t48 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule subproof :discharge (t7918.t48.a0 t7918.t48.a1))
% 32.29/32.55 (step t7918.t49 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t7918.t50 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7918.t51 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t7918.t48 t7918.t49 t7918.t50))
% 32.29/32.55 (step t7918.t52 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule reordering :premises (t7918.t51))
% 32.29/32.55 (step t7918.t53 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t7918.t52))
% 32.29/32.55 (step t7918.t54 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t7918.t47 t7918.t53))
% 32.29/32.55 (step t7918.t55 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg2)
% 32.29/32.55 (step t7918.t56 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t7918.t54 t7918.t55))
% 32.29/32.55 (step t7918.t57 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t7918.t56))
% 32.29/32.55 (step t7918.t58 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule implies :premises (t7918.t57))
% 32.29/32.55 (step t7918.t59 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t7918.t60 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t7918.t59 t7918.a1 t7918.a0))
% 32.29/32.55 (step t7918.t61 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t7918.t58 t7918.t60))
% 32.29/32.55 (step t7918.t62 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7918.t16 t7918.a6 t7918.t31 t7918.t46 t7918.t61 t7918.a2))
% 32.29/32.55 (step t7918.t63 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7918.t15 t7918.t62))
% 32.29/32.55 (step t7918 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule subproof :discharge (t7918.a0 t7918.a1 t7918.a2 t7918.a3 t7918.a4 t7918.a5 t7918.a6))
% 32.29/32.55 (step t7919 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7920 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t7921 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t7922 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t7923 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t7924 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t7925 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t7926 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))))) :rule resolution :premises (t7918 t7919 t7920 t7921 t7922 t7923 t7924 t7925))
% 32.29/32.55 (step t7927 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule reordering :premises (t7926))
% 32.29/32.55 (step t7928 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule contraction :premises (t7927))
% 32.29/32.55 (step t7929 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7917 t7928))
% 32.29/32.55 (step t7930 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t7931 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7929 t7930))
% 32.29/32.55 (step t7932 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t7931))
% 32.29/32.55 (step t7933 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies :premises (t7932))
% 32.29/32.55 (step t7934 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t7916 t7933))
% 32.29/32.55 (step t7935 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t7936 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.55 (step t7937 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t7938 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t7939 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t7940 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t7941 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))))) :rule or_neg)
% 32.29/32.55 (step t7942 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t7943 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7934 t7935 t7936 t7937 t7938 t7939 t7940 t7941 t7942))
% 32.29/32.55 (step t7944 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule contraction :premises (t7943))
% 32.29/32.55 (step t7945 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t7904 t7915 t7944))
% 32.29/32.55 (step t7946 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)))) :rule or :premises (t7945))
% 32.29/32.55 (step t7947 (cl (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t7946))
% 32.29/32.55 (step t7948 (cl (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e12 tptp.e10)))) :rule and :premises (t1360))
% 32.29/32.55 (step t7949 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e10 tptp.unit1))) :rule resolution :premises (t7903 t7947 t799 t798 t7948 t1381 t4707))
% 32.29/32.55 (step t7950 (cl (not (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14)))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t7949))
% 32.29/32.55 (step t7951 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) :rule or :premises (t2895))
% 32.29/32.55 (step t7952 (cl (or (= tptp.e21 (tptp.h4 tptp.e10)) (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e12)) (= tptp.e21 (tptp.h4 tptp.e13)) (= tptp.e21 (tptp.h4 tptp.e14))) (not (= tptp.e21 (tptp.h4 tptp.e11)))) :rule or_neg)
% 32.29/32.55 (step t7953 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t7954 (cl (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))))) :rule reordering :premises (t7953))
% 32.29/32.55 (step t7955 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13))))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t7956 (cl (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))))) :rule reordering :premises (t7955))
% 32.29/32.55 (step t7957 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t7958 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))))) :rule reordering :premises (t7957))
% 32.29/32.55 (step t7959 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) :rule resolution :premises (t7950 t7951 t7952 t7954 t7956 t7958 t4355 t4357))
% 32.29/32.55 (step t7960 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) :rule contraction :premises (t7959))
% 32.29/32.55 (step t7961 (cl (or (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule and :premises (t1107))
% 32.29/32.55 (step t7962 (cl (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) :rule or :premises (t7961))
% 32.29/32.55 (step t7963 (cl (not (= (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (or (= tptp.e12 tptp.e13) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))))) (not (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) (or (= tptp.e12 tptp.e13) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.55 (step t7964 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule refl)
% 32.29/32.55 (step t7965 (cl (= (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (or (= tptp.e12 tptp.e13) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))))) :rule cong :premises (t3487 t1414 t1415 t7964))
% 32.29/32.55 (step t7966 (cl (not (= (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))))) (not (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.55 (step t7967 (cl (= (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule refl)
% 32.29/32.55 (step t7968 (cl (= (= (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))))) :rule equiv_simplify)
% 32.29/32.55 (step t7969 (cl (= (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false) (not (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))))) :rule equiv2 :premises (t7968))
% 32.29/32.55 (step t7970 (cl (not (not (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule not_not)
% 32.29/32.55 (step t7971 (cl (= (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t7969 t7970))
% 32.29/32.55 (step t7972 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7973)
% 32.29/32.55 (assume t7973.a0 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))
% 32.29/32.55 (assume t7973.a1 (not (= tptp.e12 tptp.e13)))
% 32.29/32.55 (assume t7973.a2 (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))
% 32.29/32.55 (step t7973.t1 (cl (not (= (= false true) false)) (not (= false true)) false) :rule equiv_pos2)
% 32.29/32.55 (step t7973.t2 (cl (= (= false true) false)) :rule all_simplify)
% 32.29/32.55 (step t7973.t3 (cl (= (= (= tptp.e12 tptp.e13) false) (not (= tptp.e12 tptp.e13)))) :rule equiv_simplify)
% 32.29/32.55 (step t7973.t4 (cl (= (= tptp.e12 tptp.e13) false) (not (not (= tptp.e12 tptp.e13)))) :rule equiv2 :premises (t7973.t3))
% 32.29/32.55 (step t7973.t5 (cl (not (not (not (= tptp.e12 tptp.e13)))) (= tptp.e12 tptp.e13)) :rule not_not)
% 32.29/32.55 (step t7973.t6 (cl (= (= tptp.e12 tptp.e13) false) (= tptp.e12 tptp.e13)) :rule resolution :premises (t7973.t4 t7973.t5))
% 32.29/32.55 (step t7973.t7 (cl (= (= tptp.e12 tptp.e13) false)) :rule resolution :premises (t7973.t6 t7973.a1))
% 32.29/32.55 (step t7973.t8 (cl (= false (= tptp.e12 tptp.e13))) :rule symm :premises (t7973.t7))
% 32.29/32.55 (step t7973.t9 (cl (= (= (= tptp.e12 tptp.e13) true) (= tptp.e12 tptp.e13))) :rule equiv_simplify)
% 32.29/32.55 (step t7973.t10 (cl (= (= tptp.e12 tptp.e13) true) (not (= tptp.e12 tptp.e13))) :rule equiv2 :premises (t7973.t9))
% 32.29/32.55 (step t7973.t11 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule symm :premises (t7973.a2))
% 32.29/32.55 (step t7973.t12 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule symm :premises (t7973.t11))
% 32.29/32.55 (step t7973.t13 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e13)) :rule symm :premises (t7973.a0))
% 32.29/32.55 (step t7973.t14 (cl (= tptp.e12 tptp.e13)) :rule trans :premises (t7973.t12 t7973.t13))
% 32.29/32.55 (step t7973.t15 (cl (= (= tptp.e12 tptp.e13) true)) :rule resolution :premises (t7973.t10 t7973.t14))
% 32.29/32.55 (step t7973.t16 (cl (= false true)) :rule trans :premises (t7973.t8 t7973.t15))
% 32.29/32.55 (step t7973.t17 (cl false) :rule resolution :premises (t7973.t1 t7973.t2 t7973.t16))
% 32.29/32.55 (step t7973 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false) :rule subproof :discharge (t7973.a0 t7973.a1 t7973.a2))
% 32.29/32.55 (step t7974 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7975 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.55 (step t7976 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7977 (cl false (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t7973 t7974 t7975 t7976))
% 32.29/32.55 (step t7978 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) false) :rule reordering :premises (t7977))
% 32.29/32.55 (step t7979 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) false) :rule contraction :premises (t7978))
% 32.29/32.55 (step t7980 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false) false) :rule resolution :premises (t7972 t7979))
% 32.29/32.55 (step t7981 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false) (not false)) :rule implies_neg2)
% 32.29/32.55 (step t7982 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false) (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false)) :rule resolution :premises (t7980 t7981))
% 32.29/32.55 (step t7983 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false)) :rule contraction :premises (t7982))
% 32.29/32.55 (step t7984 (cl (= (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))))) :rule implies_simplify)
% 32.29/32.55 (step t7985 (cl (not (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false)) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule equiv1 :premises (t7984))
% 32.29/32.55 (step t7986 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t7983 t7985))
% 32.29/32.55 (step t7987 (cl (= (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) false)) :rule resolution :premises (t7971 t7986))
% 32.29/32.55 (step t7988 (cl (= (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) false))) :rule cong :premises (t7967 t7987))
% 32.29/32.55 (step t7989 (cl (= (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) false) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))))) :rule all_simplify)
% 32.29/32.55 (step t7990 (cl (= (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))))) :rule trans :premises (t7988 t7989))
% 32.29/32.55 (step t7991 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7992)
% 32.29/32.55 (assume t7992.a0 (not (= tptp.e12 tptp.e13)))
% 32.29/32.55 (assume t7992.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.55 (assume t7992.a2 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t7992.a3 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))
% 32.29/32.55 (step t7992.t1 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t7992.t2 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t7992.t3)
% 32.29/32.55 (assume t7992.t3.a0 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t7992.t3.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.55 (step t7992.t3.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t7992.t3.a1))
% 32.29/32.55 (step t7992.t3.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t7992.t3.t1))
% 32.29/32.55 (step t7992.t3.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t7992.t3.a0))
% 32.29/32.55 (step t7992.t3.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t7992.t3.t3))
% 32.29/32.55 (step t7992.t3.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t7992.t3.t4))
% 32.29/32.55 (step t7992.t3.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t7992.t3.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t7992.t3.t5 t7992.t3.t6))
% 32.29/32.55 (step t7992.t3.t8 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t7992.t3.t2 t7992.t3.t7))
% 32.29/32.55 (step t7992.t3 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule subproof :discharge (t7992.t3.a0 t7992.t3.a1))
% 32.29/32.55 (step t7992.t4 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t7992.t5 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7992.t6 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t7992.t3 t7992.t4 t7992.t5))
% 32.29/32.55 (step t7992.t7 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule reordering :premises (t7992.t6))
% 32.29/32.55 (step t7992.t8 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t7992.t7))
% 32.29/32.55 (step t7992.t9 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t7992.t2 t7992.t8))
% 32.29/32.55 (step t7992.t10 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg2)
% 32.29/32.55 (step t7992.t11 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t7992.t9 t7992.t10))
% 32.29/32.55 (step t7992.t12 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t7992.t11))
% 32.29/32.55 (step t7992.t13 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule implies :premises (t7992.t12))
% 32.29/32.55 (step t7992.t14 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t7992.t15 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t7992.t14 t7992.a2 t7992.a1))
% 32.29/32.55 (step t7992.t16 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t7992.t13 t7992.t15))
% 32.29/32.55 (step t7992.t17 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t7992.t1 t7992.a3 t7992.a0 t7992.t16))
% 32.29/32.55 (step t7992 (cl (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule subproof :discharge (t7992.a0 t7992.a1 t7992.a2 t7992.a3))
% 32.29/32.55 (step t7993 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.55 (step t7994 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7995 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t7996 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t7997 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t7992 t7993 t7994 t7995 t7996))
% 32.29/32.55 (step t7998 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule reordering :premises (t7997))
% 32.29/32.55 (step t7999 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t7998))
% 32.29/32.55 (step t8000 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t7991 t7999))
% 32.29/32.55 (step t8001 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule implies_neg2)
% 32.29/32.55 (step t8002 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t8000 t8001))
% 32.29/32.55 (step t8003 (cl (=> (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule contraction :premises (t8002))
% 32.29/32.55 (step t8004 (cl (not (and (not (= tptp.e12 tptp.e13)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t7966 t7990 t8003))
% 32.29/32.55 (step t8005 (cl (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) :rule not_and :premises (t8004))
% 32.29/32.55 (step t8006 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (not (= tptp.e12 tptp.e13))))) :rule or_neg)
% 32.29/32.55 (step t8007 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8008 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.55 (step t8009 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8010 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t8005 t8006 t8007 t8008 t8009))
% 32.29/32.55 (step t8011 (cl (or (not (not (= tptp.e12 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule contraction :premises (t8010))
% 32.29/32.55 (step t8012 (cl (or (= tptp.e12 tptp.e13) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t7963 t7965 t8011))
% 32.29/32.55 (step t8013 (cl (= tptp.e12 tptp.e13) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) :rule or :premises (t8012))
% 32.29/32.55 (step t8014 (cl (= tptp.e12 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t8013))
% 32.29/32.55 (step t8015 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t8014 t799 t798 t3514))
% 32.29/32.55 (step t8016 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule or :premises (t4269))
% 32.29/32.55 (step t8017 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule or :premises (t3082))
% 32.29/32.55 (step t8018 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t7960 t7962 t8015 t8016 t4309 t1818 t4348 t8017 t3658))
% 32.29/32.55 (step t8019 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) :rule contraction :premises (t8018))
% 32.29/32.55 (step t8020 (cl (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) :rule or :premises (t4372))
% 32.29/32.55 (step t8021 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t8019 t8020 t3888))
% 32.29/32.55 (step t8022 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) :rule contraction :premises (t8021))
% 32.29/32.55 (step t8023 (cl (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) :rule or :premises (t3475))
% 32.29/32.55 (step t8024 (cl (or (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)))) :rule and :premises (t1107))
% 32.29/32.55 (step t8025 (cl (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t8024))
% 32.29/32.55 (step t8026 (cl (not (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))))) (not (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.55 (step t8027 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t8028 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv1 :premises (t8027))
% 32.29/32.55 (step t8029 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))))) :rule all_simplify)
% 32.29/32.55 (step t8030 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) :rule refl)
% 32.29/32.55 (step t8031 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) :rule all_simplify)
% 32.29/32.55 (step t8032 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) :rule cong :premises (t8030 t8031))
% 32.29/32.55 (step t8033 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) true)) :rule all_simplify)
% 32.29/32.55 (step t8034 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) true)) :rule trans :premises (t8032 t8033))
% 32.29/32.55 (step t8035 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) true)) :rule trans :premises (t8029 t8034))
% 32.29/32.55 (step t8036 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t8028 t8035))
% 32.29/32.55 (step t8037 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule refl)
% 32.29/32.55 (step t8038 (cl (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))))) :rule cong :premises (t1414 t1415 t8036 t8037))
% 32.29/32.55 (step t8039 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) :rule and_neg)
% 32.29/32.55 (step t8040 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8041)
% 32.29/32.55 (assume t8041.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.55 (assume t8041.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t8041.a2 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))
% 32.29/32.55 (step t8041.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8041.t2)
% 32.29/32.55 (assume t8041.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))
% 32.29/32.55 (assume t8041.t2.a1 (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))
% 32.29/32.55 (step t8041.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) false) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t8041.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) false)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule equiv1 :premises (t8041.t2.t1))
% 32.29/32.55 (step t8041.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule symm :premises (t8041.t2.a1))
% 32.29/32.55 (step t8041.t2.t4 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule symm :premises (t8041.t2.t3))
% 32.29/32.55 (step t8041.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e11) (tptp.op1 tptp.e13 tptp.e11))) :rule refl)
% 32.29/32.55 (step t8041.t2.t6 (cl (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) :rule cong :premises (t8041.t2.t4 t8041.t2.t5))
% 32.29/32.55 (step t8041.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) false) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t8041.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) :rule equiv2 :premises (t8041.t2.t7))
% 32.29/32.55 (step t8041.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) :rule not_not)
% 32.29/32.55 (step t8041.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) false) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) :rule resolution :premises (t8041.t2.t8 t8041.t2.t9))
% 32.29/32.55 (step t8041.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) false)) :rule resolution :premises (t8041.t2.t10 t8041.t2.a0))
% 32.29/32.55 (step t8041.t2.t12 (cl (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) false)) :rule trans :premises (t8041.t2.t6 t8041.t2.t11))
% 32.29/32.55 (step t8041.t2.t13 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t8041.t2.t2 t8041.t2.t12))
% 32.29/32.55 (step t8041.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule subproof :discharge (t8041.t2.a0 t8041.t2.a1))
% 32.29/32.55 (step t8041.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) :rule and_pos)
% 32.29/32.55 (step t8041.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8041.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t8041.t2 t8041.t3 t8041.t4))
% 32.29/32.55 (step t8041.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule reordering :premises (t8041.t5))
% 32.29/32.55 (step t8041.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule contraction :premises (t8041.t6))
% 32.29/32.55 (step t8041.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t8041.t1 t8041.t7))
% 32.29/32.55 (step t8041.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8041.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t8041.t8 t8041.t9))
% 32.29/32.55 (step t8041.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t8041.t10))
% 32.29/32.55 (step t8041.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies :premises (t8041.t11))
% 32.29/32.55 (step t8041.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8041.t14 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8041.t15)
% 32.29/32.55 (assume t8041.t15.a0 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t8041.t15.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.55 (step t8041.t15.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t8041.t15.a1))
% 32.29/32.55 (step t8041.t15.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t8041.t15.t1))
% 32.29/32.55 (step t8041.t15.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t8041.t15.a0))
% 32.29/32.55 (step t8041.t15.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t8041.t15.t3))
% 32.29/32.55 (step t8041.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t8041.t15.t4))
% 32.29/32.55 (step t8041.t15.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8041.t15.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t8041.t15.t5 t8041.t15.t6))
% 32.29/32.55 (step t8041.t15.t8 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t8041.t15.t2 t8041.t15.t7))
% 32.29/32.55 (step t8041.t15 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule subproof :discharge (t8041.t15.a0 t8041.t15.a1))
% 32.29/32.55 (step t8041.t16 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t8041.t17 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8041.t18 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t8041.t15 t8041.t16 t8041.t17))
% 32.29/32.55 (step t8041.t19 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule reordering :premises (t8041.t18))
% 32.29/32.55 (step t8041.t20 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t8041.t19))
% 32.29/32.55 (step t8041.t21 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t8041.t14 t8041.t20))
% 32.29/32.55 (step t8041.t22 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg2)
% 32.29/32.55 (step t8041.t23 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t8041.t21 t8041.t22))
% 32.29/32.55 (step t8041.t24 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t8041.t23))
% 32.29/32.55 (step t8041.t25 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule implies :premises (t8041.t24))
% 32.29/32.55 (step t8041.t26 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8041.t27 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t8041.t26 t8041.a1 t8041.a0))
% 32.29/32.55 (step t8041.t28 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t8041.t25 t8041.t27))
% 32.29/32.55 (step t8041.t29 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t8041.t13 t8041.a2 t8041.t28))
% 32.29/32.55 (step t8041.t30 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t8041.t12 t8041.t29))
% 32.29/32.55 (step t8041 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule subproof :discharge (t8041.a0 t8041.a1 t8041.a2))
% 32.29/32.55 (step t8042 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8043 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t8044 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) :rule and_pos)
% 32.29/32.55 (step t8045 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))))) :rule resolution :premises (t8041 t8042 t8043 t8044))
% 32.29/32.55 (step t8046 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule reordering :premises (t8045))
% 32.29/32.55 (step t8047 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule contraction :premises (t8046))
% 32.29/32.55 (step t8048 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t8040 t8047))
% 32.29/32.55 (step t8049 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8050 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t8048 t8049))
% 32.29/32.55 (step t8051 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t8050))
% 32.29/32.55 (step t8052 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies :premises (t8051))
% 32.29/32.55 (step t8053 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t8039 t8052))
% 32.29/32.55 (step t8054 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8055 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.55 (step t8056 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))))) :rule or_neg)
% 32.29/32.55 (step t8057 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8058 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t8053 t8054 t8055 t8056 t8057))
% 32.29/32.55 (step t8059 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule contraction :premises (t8058))
% 32.29/32.55 (step t8060 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t8026 t8038 t8059))
% 32.29/32.55 (step t8061 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule or :premises (t8060))
% 32.29/32.55 (step t8062 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t8061))
% 32.29/32.55 (step t8063 (cl (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e11)))) :rule and :premises (t1360))
% 32.29/32.55 (step t8064 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t8062 t8063 t798 t799))
% 32.29/32.55 (step t8065 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t8022 t8023 t3515 t3576 t8025 t8064 t3515 t2921 t2449))
% 32.29/32.55 (step t8066 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e21 (tptp.h4 tptp.e11))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) :rule contraction :premises (t8065))
% 32.29/32.55 (step t8067 (cl (not (= (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))))) (not (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule equiv_pos2)
% 32.29/32.55 (step t8068 (cl (= (= (= (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.h4 tptp.e11))) true) (= (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.h4 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t8069 (cl (not (= (= (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.h4 tptp.e11))) true)) (= (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.h4 tptp.e11)))) :rule equiv1 :premises (t8068))
% 32.29/32.55 (step t8070 (cl (= (= (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.h4 tptp.e11))) (= (= tptp.e21 (tptp.h4 tptp.e11)) (not (not (= tptp.e21 (tptp.h4 tptp.e11))))))) :rule all_simplify)
% 32.29/32.55 (step t8071 (cl (= (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11)))) :rule refl)
% 32.29/32.55 (step t8072 (cl (= (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.h4 tptp.e11)))) :rule all_simplify)
% 32.29/32.55 (step t8073 (cl (= (= (= tptp.e21 (tptp.h4 tptp.e11)) (not (not (= tptp.e21 (tptp.h4 tptp.e11))))) (= (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11))))) :rule cong :premises (t8071 t8072))
% 32.29/32.55 (step t8074 (cl (= (= (= tptp.e21 (tptp.h4 tptp.e11)) (= tptp.e21 (tptp.h4 tptp.e11))) true)) :rule all_simplify)
% 32.29/32.55 (step t8075 (cl (= (= (= tptp.e21 (tptp.h4 tptp.e11)) (not (not (= tptp.e21 (tptp.h4 tptp.e11))))) true)) :rule trans :premises (t8073 t8074))
% 32.29/32.55 (step t8076 (cl (= (= (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.h4 tptp.e11))) true)) :rule trans :premises (t8070 t8075))
% 32.29/32.55 (step t8077 (cl (= (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (= tptp.e21 (tptp.h4 tptp.e11)))) :rule resolution :premises (t8069 t8076))
% 32.29/32.55 (step t8078 (cl (= (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule refl)
% 32.29/32.55 (step t8079 (cl (= (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))))) :rule cong :premises (t7695 t8077 t8078))
% 32.29/32.55 (step t8080 (cl (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11))))) :rule and_neg)
% 32.29/32.55 (step t8081 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8082)
% 32.29/32.55 (assume t8082.a0 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.55 (assume t8082.a1 (not (= tptp.e21 (tptp.h4 tptp.e11))))
% 32.29/32.55 (step t8082.t1 (cl (=> (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8082.t2)
% 32.29/32.55 (assume t8082.t2.a0 (not (= tptp.e21 (tptp.h4 tptp.e11))))
% 32.29/32.55 (assume t8082.t2.a1 (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))
% 32.29/32.55 (step t8082.t2.t1 (cl (= (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) false) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule equiv_simplify)
% 32.29/32.55 (step t8082.t2.t2 (cl (not (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) false)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule equiv1 :premises (t8082.t2.t1))
% 32.29/32.55 (step t8082.t2.t3 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.29/32.55 (step t8082.t2.t4 (cl (= (tptp.h4 tptp.e11) (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t8082.t2.a1))
% 32.29/32.55 (step t8082.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule symm :premises (t8082.t2.t4))
% 32.29/32.55 (step t8082.t2.t6 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.h4 tptp.e11)))) :rule cong :premises (t8082.t2.t3 t8082.t2.t5))
% 32.29/32.55 (step t8082.t2.t7 (cl (= (= (= tptp.e21 (tptp.h4 tptp.e11)) false) (not (= tptp.e21 (tptp.h4 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t8082.t2.t8 (cl (= (= tptp.e21 (tptp.h4 tptp.e11)) false) (not (not (= tptp.e21 (tptp.h4 tptp.e11))))) :rule equiv2 :premises (t8082.t2.t7))
% 32.29/32.55 (step t8082.t2.t9 (cl (not (not (not (= tptp.e21 (tptp.h4 tptp.e11))))) (= tptp.e21 (tptp.h4 tptp.e11))) :rule not_not)
% 32.29/32.55 (step t8082.t2.t10 (cl (= (= tptp.e21 (tptp.h4 tptp.e11)) false) (= tptp.e21 (tptp.h4 tptp.e11))) :rule resolution :premises (t8082.t2.t8 t8082.t2.t9))
% 32.29/32.55 (step t8082.t2.t11 (cl (= (= tptp.e21 (tptp.h4 tptp.e11)) false)) :rule resolution :premises (t8082.t2.t10 t8082.t2.a0))
% 32.29/32.55 (step t8082.t2.t12 (cl (= (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) false)) :rule trans :premises (t8082.t2.t6 t8082.t2.t11))
% 32.29/32.55 (step t8082.t2.t13 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule resolution :premises (t8082.t2.t2 t8082.t2.t12))
% 32.29/32.55 (step t8082.t2 (cl (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule subproof :discharge (t8082.t2.a0 t8082.t2.a1))
% 32.29/32.55 (step t8082.t3 (cl (not (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.h4 tptp.e11)))) :rule and_pos)
% 32.29/32.55 (step t8082.t4 (cl (not (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8082.t5 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))))) :rule resolution :premises (t8082.t2 t8082.t3 t8082.t4))
% 32.29/32.55 (step t8082.t6 (cl (not (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule reordering :premises (t8082.t5))
% 32.29/32.55 (step t8082.t7 (cl (not (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule contraction :premises (t8082.t6))
% 32.29/32.55 (step t8082.t8 (cl (=> (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule resolution :premises (t8082.t1 t8082.t7))
% 32.29/32.55 (step t8082.t9 (cl (=> (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule implies_neg2)
% 32.29/32.55 (step t8082.t10 (cl (=> (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (=> (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule resolution :premises (t8082.t8 t8082.t9))
% 32.29/32.55 (step t8082.t11 (cl (=> (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule contraction :premises (t8082.t10))
% 32.29/32.55 (step t8082.t12 (cl (not (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule implies :premises (t8082.t11))
% 32.29/32.55 (step t8082.t13 (cl (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t8082.t14 (cl (and (not (= tptp.e21 (tptp.h4 tptp.e11))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule resolution :premises (t8082.t13 t8082.a1 t8082.a0))
% 32.29/32.55 (step t8082.t15 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule resolution :premises (t8082.t12 t8082.t14))
% 32.29/32.55 (step t8082 (cl (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule subproof :discharge (t8082.a0 t8082.a1))
% 32.29/32.55 (step t8083 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11))))) (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8084 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11))))) (not (= tptp.e21 (tptp.h4 tptp.e11)))) :rule and_pos)
% 32.29/32.55 (step t8085 (cl (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11))))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11)))))) :rule resolution :premises (t8082 t8083 t8084))
% 32.29/32.55 (step t8086 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11))))) (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11))))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule reordering :premises (t8085))
% 32.29/32.55 (step t8087 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11))))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule contraction :premises (t8086))
% 32.29/32.55 (step t8088 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule resolution :premises (t8081 t8087))
% 32.29/32.55 (step t8089 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule implies_neg2)
% 32.29/32.55 (step t8090 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule resolution :premises (t8088 t8089))
% 32.29/32.55 (step t8091 (cl (=> (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule contraction :premises (t8090))
% 32.29/32.55 (step t8092 (cl (not (and (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.h4 tptp.e11))))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule implies :premises (t8091))
% 32.29/32.55 (step t8093 (cl (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule resolution :premises (t8080 t8092))
% 32.29/32.55 (step t8094 (cl (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8095 (cl (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (not (not (= tptp.e21 (tptp.h4 tptp.e11)))))) :rule or_neg)
% 32.29/32.55 (step t8096 (cl (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (not (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule or_neg)
% 32.29/32.55 (step t8097 (cl (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule resolution :premises (t8093 t8094 t8095 t8096))
% 32.29/32.55 (step t8098 (cl (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (not (not (= tptp.e21 (tptp.h4 tptp.e11)))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule contraction :premises (t8097))
% 32.29/32.55 (step t8099 (cl (or (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))))) :rule resolution :premises (t8067 t8079 t8098))
% 32.29/32.55 (step t8100 (cl (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11))) (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule or :premises (t8099))
% 32.29/32.55 (step t8101 (cl (= tptp.e21 (tptp.h4 tptp.e11)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.op2 tptp.e23 tptp.e23) (tptp.h4 tptp.e11)))) :rule reordering :premises (t8100))
% 32.29/32.55 (step t8102 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)))) :rule resolution :premises (t8066 t8101 t6851))
% 32.29/32.55 (step t8103 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) :rule contraction :premises (t8102))
% 32.29/32.55 (step t8104 (cl (not (= (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))))) (not (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.55 (step t8105 (cl (= (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))))) :rule cong :premises (t7807 t7584 t1834 t4170))
% 32.29/32.55 (step t8106 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule and_neg)
% 32.29/32.55 (step t8107 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8108)
% 32.29/32.55 (assume t8108.a0 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (assume t8108.a1 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8108.a2 (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))
% 32.29/32.55 (step t8108.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8108.t2)
% 32.29/32.55 (assume t8108.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))
% 32.29/32.55 (assume t8108.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))
% 32.29/32.55 (step t8108.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) false) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8108.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) false)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule equiv1 :premises (t8108.t2.t1))
% 32.29/32.55 (step t8108.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13)) :rule symm :premises (t8108.t2.a1))
% 32.29/32.55 (step t8108.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule symm :premises (t8108.t2.t3))
% 32.29/32.55 (step t8108.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule refl)
% 32.29/32.55 (step t8108.t2.t6 (cl (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule cong :premises (t8108.t2.t4 t8108.t2.t5))
% 32.29/32.55 (step t8108.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8108.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) :rule equiv2 :premises (t8108.t2.t7))
% 32.29/32.55 (step t8108.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule not_not)
% 32.29/32.55 (step t8108.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) :rule resolution :premises (t8108.t2.t8 t8108.t2.t9))
% 32.29/32.55 (step t8108.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) false)) :rule resolution :premises (t8108.t2.t10 t8108.t2.a0))
% 32.29/32.55 (step t8108.t2.t12 (cl (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) false)) :rule trans :premises (t8108.t2.t6 t8108.t2.t11))
% 32.29/32.55 (step t8108.t2.t13 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t8108.t2.t2 t8108.t2.t12))
% 32.29/32.55 (step t8108.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t8108.t2.a0 t8108.t2.a1))
% 32.29/32.55 (step t8108.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8108.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8108.t5 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t8108.t2 t8108.t3 t8108.t4))
% 32.29/32.55 (step t8108.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t8108.t5))
% 32.29/32.55 (step t8108.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t8108.t6))
% 32.29/32.55 (step t8108.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t8108.t1 t8108.t7))
% 32.29/32.55 (step t8108.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8108.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t8108.t8 t8108.t9))
% 32.29/32.55 (step t8108.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t8108.t10))
% 32.29/32.55 (step t8108.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t8108.t11))
% 32.29/32.55 (step t8108.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_neg)
% 32.29/32.55 (step t8108.t14 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8108.t15)
% 32.29/32.55 (assume t8108.t15.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8108.t15.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (step t8108.t15.t1 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t8108.t15.a1))
% 32.29/32.55 (step t8108.t15.t2 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule symm :premises (t8108.t15.t1))
% 32.29/32.55 (step t8108.t15.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.55 (step t8108.t15.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8108.t15.a0))
% 32.29/32.55 (step t8108.t15.t5 (cl (= (tptp.op1 tptp.e13 tptp.unit1) (tptp.op1 tptp.e13 tptp.e10))) :rule cong :premises (t8108.t15.t3 t8108.t15.t4))
% 32.29/32.55 (step t8108.t15.t6 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t8108.t15.t2 t8108.t15.t5))
% 32.29/32.55 (step t8108.t15 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t8108.t15.a0 t8108.t15.a1))
% 32.29/32.55 (step t8108.t16 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8108.t17 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8108.t18 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule resolution :premises (t8108.t15 t8108.t16 t8108.t17))
% 32.29/32.55 (step t8108.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t8108.t18))
% 32.29/32.55 (step t8108.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t8108.t19))
% 32.29/32.55 (step t8108.t21 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8108.t14 t8108.t20))
% 32.29/32.55 (step t8108.t22 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8108.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8108.t21 t8108.t22))
% 32.29/32.55 (step t8108.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t8108.t23))
% 32.29/32.55 (step t8108.t25 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t8108.t24))
% 32.29/32.55 (step t8108.t26 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8108.t27 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule resolution :premises (t8108.t26 t8108.a1 t8108.a0))
% 32.29/32.55 (step t8108.t28 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8108.t25 t8108.t27))
% 32.29/32.55 (step t8108.t29 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8108.t13 t8108.a2 t8108.t28))
% 32.29/32.55 (step t8108.t30 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t8108.t12 t8108.t29))
% 32.29/32.55 (step t8108 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule subproof :discharge (t8108.a0 t8108.a1 t8108.a2))
% 32.29/32.55 (step t8109 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8110 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8111 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8112 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))))) :rule resolution :premises (t8108 t8109 t8110 t8111))
% 32.29/32.55 (step t8113 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule reordering :premises (t8112))
% 32.29/32.55 (step t8114 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t8113))
% 32.29/32.55 (step t8115 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t8107 t8114))
% 32.29/32.55 (step t8116 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8117 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t8115 t8116))
% 32.29/32.55 (step t8118 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t8117))
% 32.29/32.55 (step t8119 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies :premises (t8118))
% 32.29/32.55 (step t8120 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t8106 t8119))
% 32.29/32.55 (step t8121 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8122 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8123 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))))) :rule or_neg)
% 32.29/32.55 (step t8124 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule or_neg)
% 32.29/32.55 (step t8125 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t8120 t8121 t8122 t8123 t8124))
% 32.29/32.55 (step t8126 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule contraction :premises (t8125))
% 32.29/32.55 (step t8127 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))))) :rule resolution :premises (t8104 t8105 t8126))
% 32.29/32.55 (step t8128 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)))) :rule or :premises (t8127))
% 32.29/32.55 (step t8129 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8128))
% 32.29/32.55 (step t8130 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.55 (step t8131 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8132)
% 32.29/32.55 (assume t8132.a0 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.55 (assume t8132.a1 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (step t8132.t1 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8132.t2)
% 32.29/32.55 (assume t8132.t2.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8132.t2.a1 (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))
% 32.29/32.55 (step t8132.t2.t1 (cl (= (tptp.op1 tptp.e10 tptp.unit1) tptp.e10)) :rule symm :premises (t8132.t2.a1))
% 32.29/32.55 (step t8132.t2.t2 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule symm :premises (t8132.t2.t1))
% 32.29/32.55 (step t8132.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.55 (step t8132.t2.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8132.t2.a0))
% 32.29/32.55 (step t8132.t2.t5 (cl (= (tptp.op1 tptp.e10 tptp.unit1) (tptp.op1 tptp.e10 tptp.e10))) :rule cong :premises (t8132.t2.t3 t8132.t2.t4))
% 32.29/32.55 (step t8132.t2.t6 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule trans :premises (t8132.t2.t2 t8132.t2.t5))
% 32.29/32.55 (step t8132.t2 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule subproof :discharge (t8132.t2.a0 t8132.t2.a1))
% 32.29/32.55 (step t8132.t3 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8132.t4 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8132.t5 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))))) :rule resolution :premises (t8132.t2 t8132.t3 t8132.t4))
% 32.29/32.55 (step t8132.t6 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule reordering :premises (t8132.t5))
% 32.29/32.55 (step t8132.t7 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule contraction :premises (t8132.t6))
% 32.29/32.55 (step t8132.t8 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule resolution :premises (t8132.t1 t8132.t7))
% 32.29/32.55 (step t8132.t9 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8132.t10 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t8132.t8 t8132.t9))
% 32.29/32.55 (step t8132.t11 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t8132.t10))
% 32.29/32.55 (step t8132.t12 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule implies :premises (t8132.t11))
% 32.29/32.55 (step t8132.t13 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8132.t14 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)))) :rule resolution :premises (t8132.t13 t8132.a1 t8132.a0))
% 32.29/32.55 (step t8132.t15 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule resolution :premises (t8132.t12 t8132.t14))
% 32.29/32.55 (step t8132 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule subproof :discharge (t8132.a0 t8132.a1))
% 32.29/32.55 (step t8133 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8134 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8135 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t8132 t8133 t8134))
% 32.29/32.55 (step t8136 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule reordering :premises (t8135))
% 32.29/32.55 (step t8137 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule contraction :premises (t8136))
% 32.29/32.55 (step t8138 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule resolution :premises (t8131 t8137))
% 32.29/32.55 (step t8139 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8140 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule resolution :premises (t8138 t8139))
% 32.29/32.55 (step t8141 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) :rule contraction :premises (t8140))
% 32.29/32.55 (step t8142 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule implies :premises (t8141))
% 32.29/32.55 (step t8143 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10))) :rule resolution :premises (t8130 t8142))
% 32.29/32.55 (step t8144 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8143))
% 32.29/32.55 (step t8145 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.55 (step t8146 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule refl)
% 32.29/32.55 (step t8147 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))))) :rule cong :premises (t1111 t1415 t7807 t1114 t7584 t7817 t8146))
% 32.29/32.55 (step t8148 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule and_neg)
% 32.29/32.55 (step t8149 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8150)
% 32.29/32.55 (assume t8150.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8150.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t8150.a2 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (assume t8150.a3 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (assume t8150.a4 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8150.a5 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))
% 32.29/32.55 (step t8150.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8150.t2)
% 32.29/32.55 (assume t8150.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))
% 32.29/32.55 (assume t8150.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.55 (assume t8150.t2.a2 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))
% 32.29/32.55 (assume t8150.t2.a3 (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))
% 32.29/32.55 (step t8150.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) false) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t8150.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) false)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule equiv1 :premises (t8150.t2.t1))
% 32.29/32.55 (step t8150.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) :rule symm :premises (t8150.t2.a1))
% 32.29/32.55 (step t8150.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule symm :premises (t8150.t2.t3))
% 32.29/32.55 (step t8150.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule symm :premises (t8150.t2.a3))
% 32.29/32.55 (step t8150.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13)) :rule symm :premises (t8150.t2.a2))
% 32.29/32.55 (step t8150.t2.t7 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule symm :premises (t8150.t2.t6))
% 32.29/32.55 (step t8150.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t8150.t2.t5 t8150.t2.t7))
% 32.29/32.55 (step t8150.t2.t9 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule cong :premises (t8150.t2.t4 t8150.t2.t8))
% 32.29/32.55 (step t8150.t2.t10 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) false) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8150.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv2 :premises (t8150.t2.t10))
% 32.29/32.55 (step t8150.t2.t12 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) :rule not_not)
% 32.29/32.55 (step t8150.t2.t13 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) false) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8150.t2.t11 t8150.t2.t12))
% 32.29/32.55 (step t8150.t2.t14 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) false)) :rule resolution :premises (t8150.t2.t13 t8150.t2.a0))
% 32.29/32.55 (step t8150.t2.t15 (cl (= (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) false)) :rule trans :premises (t8150.t2.t9 t8150.t2.t14))
% 32.29/32.55 (step t8150.t2.t16 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t8150.t2.t2 t8150.t2.t15))
% 32.29/32.55 (step t8150.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule subproof :discharge (t8150.t2.a0 t8150.t2.a1 t8150.t2.a2 t8150.t2.a3))
% 32.29/32.55 (step t8150.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8150.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8150.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8150.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8150.t7 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t8150.t2 t8150.t3 t8150.t4 t8150.t5 t8150.t6))
% 32.29/32.55 (step t8150.t8 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule reordering :premises (t8150.t7))
% 32.29/32.55 (step t8150.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t8150.t8))
% 32.29/32.55 (step t8150.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t8150.t1 t8150.t9))
% 32.29/32.55 (step t8150.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8150.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t8150.t10 t8150.t11))
% 32.29/32.55 (step t8150.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule contraction :premises (t8150.t12))
% 32.29/32.55 (step t8150.t14 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies :premises (t8150.t13))
% 32.29/32.55 (step t8150.t15 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t8150.t16 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8150.t17)
% 32.29/32.55 (assume t8150.t17.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8150.t17.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (step t8150.t17.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t8150.t17.a1))
% 32.29/32.55 (step t8150.t17.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t8150.t17.t1))
% 32.29/32.55 (step t8150.t17.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8150.t17.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8150.t17.a0))
% 32.29/32.55 (step t8150.t17.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8150.t17.t4))
% 32.29/32.55 (step t8150.t17.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8150.t17.t5))
% 32.29/32.55 (step t8150.t17.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e10))) :rule cong :premises (t8150.t17.t3 t8150.t17.t6))
% 32.29/32.55 (step t8150.t17.t8 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule trans :premises (t8150.t17.t2 t8150.t17.t7))
% 32.29/32.55 (step t8150.t17 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule subproof :discharge (t8150.t17.a0 t8150.t17.a1))
% 32.29/32.55 (step t8150.t18 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8150.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8150.t20 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t8150.t17 t8150.t18 t8150.t19))
% 32.29/32.55 (step t8150.t21 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule reordering :premises (t8150.t20))
% 32.29/32.55 (step t8150.t22 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule contraction :premises (t8150.t21))
% 32.29/32.55 (step t8150.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t8150.t16 t8150.t22))
% 32.29/32.55 (step t8150.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8150.t25 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8150.t23 t8150.t24))
% 32.29/32.55 (step t8150.t26 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t8150.t25))
% 32.29/32.55 (step t8150.t27 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule implies :premises (t8150.t26))
% 32.29/32.55 (step t8150.t28 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8150.t29 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t8150.t28 t8150.a4 t8150.a3))
% 32.29/32.55 (step t8150.t30 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t8150.t27 t8150.t29))
% 32.29/32.55 (step t8150.t31 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8150.t32)
% 32.29/32.55 (assume t8150.t32.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8150.t32.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (step t8150.t32.t1 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t8150.t32.a1))
% 32.29/32.55 (step t8150.t32.t2 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule symm :premises (t8150.t32.t1))
% 32.29/32.55 (step t8150.t32.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.55 (step t8150.t32.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8150.t32.a0))
% 32.29/32.55 (step t8150.t32.t5 (cl (= (tptp.op1 tptp.e13 tptp.unit1) (tptp.op1 tptp.e13 tptp.e10))) :rule cong :premises (t8150.t32.t3 t8150.t32.t4))
% 32.29/32.55 (step t8150.t32.t6 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t8150.t32.t2 t8150.t32.t5))
% 32.29/32.55 (step t8150.t32 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t8150.t32.a0 t8150.t32.a1))
% 32.29/32.55 (step t8150.t33 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8150.t34 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8150.t35 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule resolution :premises (t8150.t32 t8150.t33 t8150.t34))
% 32.29/32.55 (step t8150.t36 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t8150.t35))
% 32.29/32.55 (step t8150.t37 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t8150.t36))
% 32.29/32.55 (step t8150.t38 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8150.t31 t8150.t37))
% 32.29/32.55 (step t8150.t39 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8150.t40 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8150.t38 t8150.t39))
% 32.29/32.55 (step t8150.t41 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t8150.t40))
% 32.29/32.55 (step t8150.t42 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t8150.t41))
% 32.29/32.55 (step t8150.t43 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8150.t44 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule resolution :premises (t8150.t43 t8150.a4 t8150.a2))
% 32.29/32.55 (step t8150.t45 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8150.t42 t8150.t44))
% 32.29/32.55 (step t8150.t46 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8150.t47)
% 32.29/32.55 (assume t8150.t47.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8150.t47.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (step t8150.t47.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t8150.t47.a1))
% 32.29/32.55 (step t8150.t47.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t8150.t47.t1))
% 32.29/32.55 (step t8150.t47.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8150.t47.t4 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8150.t47.a0))
% 32.29/32.55 (step t8150.t47.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op1 tptp.e14 tptp.e11))) :rule cong :premises (t8150.t47.t3 t8150.t47.t4))
% 32.29/32.55 (step t8150.t47.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule trans :premises (t8150.t47.t2 t8150.t47.t5))
% 32.29/32.55 (step t8150.t47 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule subproof :discharge (t8150.t47.a0 t8150.t47.a1))
% 32.29/32.55 (step t8150.t48 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8150.t49 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t8150.t50 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t8150.t47 t8150.t48 t8150.t49))
% 32.29/32.55 (step t8150.t51 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule reordering :premises (t8150.t50))
% 32.29/32.55 (step t8150.t52 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule contraction :premises (t8150.t51))
% 32.29/32.55 (step t8150.t53 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t8150.t46 t8150.t52))
% 32.29/32.55 (step t8150.t54 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies_neg2)
% 32.29/32.55 (step t8150.t55 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t8150.t53 t8150.t54))
% 32.29/32.55 (step t8150.t56 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t8150.t55))
% 32.29/32.55 (step t8150.t57 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule implies :premises (t8150.t56))
% 32.29/32.55 (step t8150.t58 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.55 (step t8150.t59 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8150.t58 t8150.a0 t8150.a1))
% 32.29/32.55 (step t8150.t60 (cl (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11))) :rule resolution :premises (t8150.t57 t8150.t59))
% 32.29/32.55 (step t8150.t61 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t8150.t15 t8150.a5 t8150.t30 t8150.t45 t8150.t60))
% 32.29/32.55 (step t8150.t62 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t8150.t14 t8150.t61))
% 32.29/32.55 (step t8150 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule subproof :discharge (t8150.a0 t8150.a1 t8150.a2 t8150.a3 t8150.a4 t8150.a5))
% 32.29/32.55 (step t8151 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8152 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t8153 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8154 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8155 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8156 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8157 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))))) :rule resolution :premises (t8150 t8151 t8152 t8153 t8154 t8155 t8156))
% 32.29/32.55 (step t8158 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule reordering :premises (t8157))
% 32.29/32.55 (step t8159 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule contraction :premises (t8158))
% 32.29/32.55 (step t8160 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t8149 t8159))
% 32.29/32.55 (step t8161 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8162 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t8160 t8161))
% 32.29/32.55 (step t8163 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule contraction :premises (t8162))
% 32.29/32.55 (step t8164 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule implies :premises (t8163))
% 32.29/32.55 (step t8165 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule resolution :premises (t8148 t8164))
% 32.29/32.55 (step t8166 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8167 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.55 (step t8168 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8169 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8170 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8171 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))))) :rule or_neg)
% 32.29/32.55 (step t8172 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8173 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t8165 t8166 t8167 t8168 t8169 t8170 t8171 t8172))
% 32.29/32.55 (step t8174 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule contraction :premises (t8173))
% 32.29/32.55 (step t8175 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))))) :rule resolution :premises (t8145 t8147 t8174))
% 32.29/32.55 (step t8176 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) :rule or :premises (t8175))
% 32.29/32.55 (step t8177 (cl (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t8176))
% 32.29/32.55 (step t8178 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.55 (step t8179 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8180 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule equiv1 :premises (t8179))
% 32.29/32.55 (step t8181 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))))) :rule all_simplify)
% 32.29/32.55 (step t8182 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule refl)
% 32.29/32.55 (step t8183 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.29/32.55 (step t8184 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t8182 t8183))
% 32.29/32.55 (step t8185 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true)) :rule all_simplify)
% 32.29/32.55 (step t8186 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) true)) :rule trans :premises (t8184 t8185))
% 32.29/32.55 (step t8187 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true)) :rule trans :premises (t8181 t8186))
% 32.29/32.55 (step t8188 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8180 t8187))
% 32.29/32.55 (step t8189 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))))) :rule cong :premises (t1111 t2127 t1113 t1114 t7584 t8188 t3745))
% 32.29/32.55 (step t8190 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule and_neg)
% 32.29/32.55 (step t8191 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8192)
% 32.29/32.55 (assume t8192.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8192.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.55 (assume t8192.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.55 (assume t8192.a3 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (assume t8192.a4 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8192.a5 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (step t8192.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8192.t2)
% 32.29/32.55 (assume t8192.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (assume t8192.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.55 (assume t8192.t2.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.55 (assume t8192.t2.a3 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8192.t2.a4 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))
% 32.29/32.55 (step t8192.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t8192.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t8192.t2.t1))
% 32.29/32.55 (step t8192.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) :rule symm :premises (t8192.t2.a1))
% 32.29/32.55 (step t8192.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule symm :premises (t8192.t2.t3))
% 32.29/32.55 (step t8192.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8192.t2.a3))
% 32.29/32.55 (step t8192.t2.t6 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8192.t2.t5))
% 32.29/32.55 (step t8192.t2.t7 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8192.t2.t6))
% 32.29/32.55 (step t8192.t2.t8 (cl (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11)) :rule symm :premises (t8192.t2.a2))
% 32.29/32.55 (step t8192.t2.t9 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule symm :premises (t8192.t2.t8))
% 32.29/32.55 (step t8192.t2.t10 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e10))) :rule trans :premises (t8192.t2.t7 t8192.t2.t9))
% 32.29/32.55 (step t8192.t2.t11 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8192.t2.t10))
% 32.29/32.55 (step t8192.t2.t12 (cl (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11)) :rule symm :premises (t8192.t2.a4))
% 32.29/32.55 (step t8192.t2.t13 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e14 tptp.e14))) :rule trans :premises (t8192.t2.t12 t8192.t2.t6))
% 32.29/32.55 (step t8192.t2.t14 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e11))) :rule symm :premises (t8192.t2.t13))
% 32.29/32.55 (step t8192.t2.t15 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e11))) :rule trans :premises (t8192.t2.t11 t8192.t2.t14))
% 32.29/32.55 (step t8192.t2.t16 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e11 tptp.e10))) :rule symm :premises (t8192.t2.t15))
% 32.29/32.55 (step t8192.t2.t17 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule cong :premises (t8192.t2.t4 t8192.t2.t16))
% 32.29/32.55 (step t8192.t2.t18 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8192.t2.t19 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv2 :premises (t8192.t2.t18))
% 32.29/32.55 (step t8192.t2.t20 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule not_not)
% 32.29/32.55 (step t8192.t2.t21 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8192.t2.t19 t8192.t2.t20))
% 32.29/32.55 (step t8192.t2.t22 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false)) :rule resolution :premises (t8192.t2.t21 t8192.t2.a0))
% 32.29/32.55 (step t8192.t2.t23 (cl (= (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) false)) :rule trans :premises (t8192.t2.t17 t8192.t2.t22))
% 32.29/32.55 (step t8192.t2.t24 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8192.t2.t2 t8192.t2.t23))
% 32.29/32.55 (step t8192.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t8192.t2.a0 t8192.t2.a1 t8192.t2.a2 t8192.t2.a3 t8192.t2.a4))
% 32.29/32.55 (step t8192.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8192.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8192.t5 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8192.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8192.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8192.t8 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8192.t2 t8192.t3 t8192.t4 t8192.t5 t8192.t6 t8192.t7))
% 32.29/32.55 (step t8192.t9 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t8192.t8))
% 32.29/32.55 (step t8192.t10 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t8192.t9))
% 32.29/32.55 (step t8192.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8192.t1 t8192.t10))
% 32.29/32.55 (step t8192.t12 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8192.t13 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8192.t11 t8192.t12))
% 32.29/32.55 (step t8192.t14 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t8192.t13))
% 32.29/32.55 (step t8192.t15 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t8192.t14))
% 32.29/32.55 (step t8192.t16 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t8192.t17 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8192.t18)
% 32.29/32.55 (assume t8192.t18.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8192.t18.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (step t8192.t18.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t8192.t18.a1))
% 32.29/32.55 (step t8192.t18.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t8192.t18.t1))
% 32.29/32.55 (step t8192.t18.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8192.t18.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8192.t18.a0))
% 32.29/32.55 (step t8192.t18.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8192.t18.t4))
% 32.29/32.55 (step t8192.t18.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8192.t18.t5))
% 32.29/32.55 (step t8192.t18.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e10))) :rule cong :premises (t8192.t18.t3 t8192.t18.t6))
% 32.29/32.55 (step t8192.t18.t8 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule trans :premises (t8192.t18.t2 t8192.t18.t7))
% 32.29/32.55 (step t8192.t18 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule subproof :discharge (t8192.t18.a0 t8192.t18.a1))
% 32.29/32.55 (step t8192.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8192.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8192.t21 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t8192.t18 t8192.t19 t8192.t20))
% 32.29/32.55 (step t8192.t22 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule reordering :premises (t8192.t21))
% 32.29/32.55 (step t8192.t23 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule contraction :premises (t8192.t22))
% 32.29/32.55 (step t8192.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t8192.t17 t8192.t23))
% 32.29/32.55 (step t8192.t25 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8192.t26 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8192.t24 t8192.t25))
% 32.29/32.55 (step t8192.t27 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t8192.t26))
% 32.29/32.55 (step t8192.t28 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule implies :premises (t8192.t27))
% 32.29/32.55 (step t8192.t29 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8192.t30 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t8192.t29 t8192.a4 t8192.a3))
% 32.29/32.55 (step t8192.t31 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t8192.t28 t8192.t30))
% 32.29/32.55 (step t8192.t32 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8192.t33)
% 32.29/32.55 (assume t8192.t33.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8192.t33.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.55 (step t8192.t33.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t8192.t33.a1))
% 32.29/32.55 (step t8192.t33.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t8192.t33.t1))
% 32.29/32.55 (step t8192.t33.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.55 (step t8192.t33.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8192.t33.a0))
% 32.29/32.55 (step t8192.t33.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8192.t33.t4))
% 32.29/32.55 (step t8192.t33.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8192.t33.t5))
% 32.29/32.55 (step t8192.t33.t7 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e10))) :rule cong :premises (t8192.t33.t3 t8192.t33.t6))
% 32.29/32.55 (step t8192.t33.t8 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule trans :premises (t8192.t33.t2 t8192.t33.t7))
% 32.29/32.55 (step t8192.t33 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule subproof :discharge (t8192.t33.a0 t8192.t33.a1))
% 32.29/32.55 (step t8192.t34 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8192.t35 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8192.t36 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t8192.t33 t8192.t34 t8192.t35))
% 32.29/32.55 (step t8192.t37 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule reordering :premises (t8192.t36))
% 32.29/32.55 (step t8192.t38 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule contraction :premises (t8192.t37))
% 32.29/32.55 (step t8192.t39 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8192.t32 t8192.t38))
% 32.29/32.55 (step t8192.t40 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8192.t41 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8192.t39 t8192.t40))
% 32.29/32.55 (step t8192.t42 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t8192.t41))
% 32.29/32.55 (step t8192.t43 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule implies :premises (t8192.t42))
% 32.29/32.55 (step t8192.t44 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8192.t45 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t8192.t44 t8192.a4 t8192.a2))
% 32.29/32.55 (step t8192.t46 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8192.t43 t8192.t45))
% 32.29/32.55 (step t8192.t47 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8192.t48)
% 32.29/32.55 (assume t8192.t48.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8192.t48.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.55 (step t8192.t48.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11)) :rule symm :premises (t8192.t48.a1))
% 32.29/32.55 (step t8192.t48.t2 (cl (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule symm :premises (t8192.t48.t1))
% 32.29/32.55 (step t8192.t48.t3 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8192.t48.a0))
% 32.29/32.55 (step t8192.t48.t4 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8192.t48.t3))
% 32.29/32.55 (step t8192.t48.t5 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8192.t48.t4))
% 32.29/32.55 (step t8192.t48.t6 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.55 (step t8192.t48.t7 (cl (= (tptp.op1 tptp.unit1 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule cong :premises (t8192.t48.t5 t8192.t48.t6))
% 32.29/32.55 (step t8192.t48.t8 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule trans :premises (t8192.t48.t2 t8192.t48.t7))
% 32.29/32.55 (step t8192.t48 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule subproof :discharge (t8192.t48.a0 t8192.t48.a1))
% 32.29/32.55 (step t8192.t49 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8192.t50 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8192.t51 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule resolution :premises (t8192.t48 t8192.t49 t8192.t50))
% 32.29/32.55 (step t8192.t52 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule reordering :premises (t8192.t51))
% 32.29/32.55 (step t8192.t53 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule contraction :premises (t8192.t52))
% 32.29/32.55 (step t8192.t54 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t8192.t47 t8192.t53))
% 32.29/32.55 (step t8192.t55 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies_neg2)
% 32.29/32.55 (step t8192.t56 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8192.t54 t8192.t55))
% 32.29/32.55 (step t8192.t57 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t8192.t56))
% 32.29/32.55 (step t8192.t58 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule implies :premises (t8192.t57))
% 32.29/32.55 (step t8192.t59 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t8192.t60 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule resolution :premises (t8192.t59 t8192.a4 t8192.a1))
% 32.29/32.55 (step t8192.t61 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t8192.t58 t8192.t60))
% 32.29/32.55 (step t8192.t62 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8192.t16 t8192.a5 t8192.t31 t8192.t46 t8192.a0 t8192.t61))
% 32.29/32.55 (step t8192.t63 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8192.t15 t8192.t62))
% 32.29/32.55 (step t8192 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t8192.a0 t8192.a1 t8192.a2 t8192.a3 t8192.a4 t8192.a5))
% 32.29/32.55 (step t8193 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8194 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8195 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8196 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8197 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8198 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8199 (cl (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule resolution :premises (t8192 t8193 t8194 t8195 t8196 t8197 t8198))
% 32.29/32.55 (step t8200 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t8199))
% 32.29/32.55 (step t8201 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t8200))
% 32.29/32.55 (step t8202 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8191 t8201))
% 32.29/32.55 (step t8203 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8204 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8202 t8203))
% 32.29/32.55 (step t8205 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t8204))
% 32.29/32.55 (step t8206 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t8205))
% 32.29/32.55 (step t8207 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8190 t8206))
% 32.29/32.55 (step t8208 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8209 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8210 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8211 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8212 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8213 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule or_neg)
% 32.29/32.55 (step t8214 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8215 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8207 t8208 t8209 t8210 t8211 t8212 t8213 t8214))
% 32.29/32.55 (step t8216 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t8215))
% 32.29/32.55 (step t8217 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8178 t8189 t8216))
% 32.29/32.55 (step t8218 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)))) :rule or :premises (t8217))
% 32.29/32.55 (step t8219 (cl (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8218))
% 32.29/32.55 (step t8220 (cl (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and :premises (t1360))
% 32.29/32.55 (step t8221 (cl (not (= (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))))) (not (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.55 (step t8222 (cl (= (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))))) :rule cong :premises (t2126 t2127 t7584 t2051))
% 32.29/32.55 (step t8223 (cl (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.55 (step t8224 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8225)
% 32.29/32.55 (assume t8225.a0 (not (= tptp.e10 tptp.e11)))
% 32.29/32.55 (assume t8225.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.55 (assume t8225.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (step t8225.t1 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8225.t2)
% 32.29/32.55 (assume t8225.t2.a0 (not (= tptp.e10 tptp.e11)))
% 32.29/32.55 (assume t8225.t2.a1 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))
% 32.29/32.55 (step t8225.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) false) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t8225.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) false)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t8225.t2.t1))
% 32.29/32.55 (step t8225.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.55 (step t8225.t2.t4 (cl (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11)) :rule symm :premises (t8225.t2.a1))
% 32.29/32.55 (step t8225.t2.t5 (cl (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 tptp.e11))) :rule cong :premises (t8225.t2.t3 t8225.t2.t4))
% 32.29/32.55 (step t8225.t2.t6 (cl (= (= (= tptp.e10 tptp.e11) false) (not (= tptp.e10 tptp.e11)))) :rule equiv_simplify)
% 32.29/32.55 (step t8225.t2.t7 (cl (= (= tptp.e10 tptp.e11) false) (not (not (= tptp.e10 tptp.e11)))) :rule equiv2 :premises (t8225.t2.t6))
% 32.29/32.55 (step t8225.t2.t8 (cl (not (not (not (= tptp.e10 tptp.e11)))) (= tptp.e10 tptp.e11)) :rule not_not)
% 32.29/32.55 (step t8225.t2.t9 (cl (= (= tptp.e10 tptp.e11) false) (= tptp.e10 tptp.e11)) :rule resolution :premises (t8225.t2.t7 t8225.t2.t8))
% 32.29/32.55 (step t8225.t2.t10 (cl (= (= tptp.e10 tptp.e11) false)) :rule resolution :premises (t8225.t2.t9 t8225.t2.a0))
% 32.29/32.55 (step t8225.t2.t11 (cl (= (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) false)) :rule trans :premises (t8225.t2.t5 t8225.t2.t10))
% 32.29/32.55 (step t8225.t2.t12 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8225.t2.t2 t8225.t2.t11))
% 32.29/32.55 (step t8225.t2 (cl (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t8225.t2.a0 t8225.t2.a1))
% 32.29/32.55 (step t8225.t3 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8225.t4 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8225.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8225.t2 t8225.t3 t8225.t4))
% 32.29/32.55 (step t8225.t6 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t8225.t5))
% 32.29/32.55 (step t8225.t7 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t8225.t6))
% 32.29/32.55 (step t8225.t8 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8225.t1 t8225.t7))
% 32.29/32.55 (step t8225.t9 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8225.t10 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8225.t8 t8225.t9))
% 32.29/32.55 (step t8225.t11 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t8225.t10))
% 32.29/32.55 (step t8225.t12 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t8225.t11))
% 32.29/32.55 (step t8225.t13 (cl (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t8225.t14 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8225.t15)
% 32.29/32.55 (assume t8225.t15.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8225.t15.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.55 (step t8225.t15.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11)) :rule symm :premises (t8225.t15.a1))
% 32.29/32.55 (step t8225.t15.t2 (cl (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule symm :premises (t8225.t15.t1))
% 32.29/32.55 (step t8225.t15.t3 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8225.t15.a0))
% 32.29/32.55 (step t8225.t15.t4 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8225.t15.t3))
% 32.29/32.55 (step t8225.t15.t5 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8225.t15.t4))
% 32.29/32.55 (step t8225.t15.t6 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.55 (step t8225.t15.t7 (cl (= (tptp.op1 tptp.unit1 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule cong :premises (t8225.t15.t5 t8225.t15.t6))
% 32.29/32.55 (step t8225.t15.t8 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule trans :premises (t8225.t15.t2 t8225.t15.t7))
% 32.29/32.55 (step t8225.t15 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule subproof :discharge (t8225.t15.a0 t8225.t15.a1))
% 32.29/32.55 (step t8225.t16 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8225.t17 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8225.t18 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule resolution :premises (t8225.t15 t8225.t16 t8225.t17))
% 32.29/32.55 (step t8225.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule reordering :premises (t8225.t18))
% 32.29/32.55 (step t8225.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule contraction :premises (t8225.t19))
% 32.29/32.55 (step t8225.t21 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t8225.t14 t8225.t20))
% 32.29/32.55 (step t8225.t22 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies_neg2)
% 32.29/32.55 (step t8225.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8225.t21 t8225.t22))
% 32.29/32.55 (step t8225.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t8225.t23))
% 32.29/32.55 (step t8225.t25 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule implies :premises (t8225.t24))
% 32.29/32.55 (step t8225.t26 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t8225.t27 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule resolution :premises (t8225.t26 t8225.a2 t8225.a1))
% 32.29/32.55 (step t8225.t28 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t8225.t25 t8225.t27))
% 32.29/32.55 (step t8225.t29 (cl (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8225.t13 t8225.a0 t8225.t28))
% 32.29/32.55 (step t8225.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8225.t12 t8225.t29))
% 32.29/32.55 (step t8225 (cl (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t8225.a0 t8225.a1 t8225.a2))
% 32.29/32.55 (step t8226 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8227 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8228 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8229 (cl (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t8225 t8226 t8227 t8228))
% 32.29/32.55 (step t8230 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t8229))
% 32.29/32.55 (step t8231 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t8230))
% 32.29/32.55 (step t8232 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8224 t8231))
% 32.29/32.55 (step t8233 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8234 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8232 t8233))
% 32.29/32.55 (step t8235 (cl (=> (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t8234))
% 32.29/32.55 (step t8236 (cl (not (and (not (= tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t8235))
% 32.29/32.55 (step t8237 (cl (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8223 t8236))
% 32.29/32.55 (step t8238 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (not (= tptp.e10 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8239 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8240 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8241 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8242 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8237 t8238 t8239 t8240 t8241))
% 32.29/32.55 (step t8243 (cl (or (not (not (= tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t8242))
% 32.29/32.55 (step t8244 (cl (or (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8221 t8222 t8243))
% 32.29/32.55 (step t8245 (cl (= tptp.e10 tptp.e11) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) :rule or :premises (t8244))
% 32.29/32.55 (step t8246 (cl (= tptp.e10 tptp.e11) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8245))
% 32.29/32.55 (step t8247 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.55 (step t8248 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8249 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule equiv1 :premises (t8248))
% 32.29/32.55 (step t8250 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))))) :rule all_simplify)
% 32.29/32.55 (step t8251 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule refl)
% 32.29/32.55 (step t8252 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.29/32.55 (step t8253 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t8251 t8252))
% 32.29/32.55 (step t8254 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true)) :rule all_simplify)
% 32.29/32.55 (step t8255 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) true)) :rule trans :premises (t8253 t8254))
% 32.29/32.55 (step t8256 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true)) :rule trans :premises (t8250 t8255))
% 32.29/32.55 (step t8257 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8249 t8256))
% 32.29/32.55 (step t8258 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))))) :rule cong :premises (t1111 t1113 t7807 t7584 t8257 t4828))
% 32.29/32.55 (step t8259 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule and_neg)
% 32.29/32.55 (step t8260 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8261)
% 32.29/32.55 (assume t8261.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8261.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.55 (assume t8261.a2 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (assume t8261.a3 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8261.a4 (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (step t8261.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8261.t2)
% 32.29/32.55 (assume t8261.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (assume t8261.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))
% 32.29/32.55 (assume t8261.t2.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.55 (assume t8261.t2.a3 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (step t8261.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) false) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.55 (step t8261.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) false)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule equiv1 :premises (t8261.t2.t1))
% 32.29/32.55 (step t8261.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13)) :rule symm :premises (t8261.t2.a1))
% 32.29/32.55 (step t8261.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule symm :premises (t8261.t2.t3))
% 32.29/32.55 (step t8261.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8261.t2.a3))
% 32.29/32.55 (step t8261.t2.t6 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8261.t2.t5))
% 32.29/32.55 (step t8261.t2.t7 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8261.t2.t6))
% 32.29/32.55 (step t8261.t2.t8 (cl (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11)) :rule symm :premises (t8261.t2.a2))
% 32.29/32.55 (step t8261.t2.t9 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule symm :premises (t8261.t2.t8))
% 32.29/32.55 (step t8261.t2.t10 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e10))) :rule trans :premises (t8261.t2.t7 t8261.t2.t9))
% 32.29/32.55 (step t8261.t2.t11 (cl (= (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule cong :premises (t8261.t2.t4 t8261.t2.t10))
% 32.29/32.55 (step t8261.t2.t12 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8261.t2.t13 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv2 :premises (t8261.t2.t12))
% 32.29/32.55 (step t8261.t2.t14 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule not_not)
% 32.29/32.55 (step t8261.t2.t15 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8261.t2.t13 t8261.t2.t14))
% 32.29/32.55 (step t8261.t2.t16 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false)) :rule resolution :premises (t8261.t2.t15 t8261.t2.a0))
% 32.29/32.55 (step t8261.t2.t17 (cl (= (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) false)) :rule trans :premises (t8261.t2.t11 t8261.t2.t16))
% 32.29/32.55 (step t8261.t2.t18 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t8261.t2.t2 t8261.t2.t17))
% 32.29/32.55 (step t8261.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t8261.t2.a0 t8261.t2.a1 t8261.t2.a2 t8261.t2.a3))
% 32.29/32.55 (step t8261.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8261.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8261.t5 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8261.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8261.t7 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8261.t2 t8261.t3 t8261.t4 t8261.t5 t8261.t6))
% 32.29/32.55 (step t8261.t8 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t8261.t7))
% 32.29/32.55 (step t8261.t9 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t8261.t8))
% 32.29/32.55 (step t8261.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t8261.t1 t8261.t9))
% 32.29/32.55 (step t8261.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.55 (step t8261.t12 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8261.t10 t8261.t11))
% 32.29/32.55 (step t8261.t13 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t8261.t12))
% 32.29/32.55 (step t8261.t14 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t8261.t13))
% 32.29/32.55 (step t8261.t15 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8261.t16 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8261.t17)
% 32.29/32.55 (assume t8261.t17.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8261.t17.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (step t8261.t17.t1 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t8261.t17.a1))
% 32.29/32.55 (step t8261.t17.t2 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule symm :premises (t8261.t17.t1))
% 32.29/32.55 (step t8261.t17.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.55 (step t8261.t17.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8261.t17.a0))
% 32.29/32.55 (step t8261.t17.t5 (cl (= (tptp.op1 tptp.e13 tptp.unit1) (tptp.op1 tptp.e13 tptp.e10))) :rule cong :premises (t8261.t17.t3 t8261.t17.t4))
% 32.29/32.55 (step t8261.t17.t6 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t8261.t17.t2 t8261.t17.t5))
% 32.29/32.55 (step t8261.t17 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t8261.t17.a0 t8261.t17.a1))
% 32.29/32.55 (step t8261.t18 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8261.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8261.t20 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule resolution :premises (t8261.t17 t8261.t18 t8261.t19))
% 32.29/32.55 (step t8261.t21 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t8261.t20))
% 32.29/32.55 (step t8261.t22 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t8261.t21))
% 32.29/32.55 (step t8261.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8261.t16 t8261.t22))
% 32.29/32.55 (step t8261.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8261.t25 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8261.t23 t8261.t24))
% 32.29/32.55 (step t8261.t26 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t8261.t25))
% 32.29/32.55 (step t8261.t27 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t8261.t26))
% 32.29/32.55 (step t8261.t28 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8261.t29 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule resolution :premises (t8261.t28 t8261.a3 t8261.a2))
% 32.29/32.55 (step t8261.t30 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8261.t27 t8261.t29))
% 32.29/32.55 (step t8261.t31 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8261.t32)
% 32.29/32.55 (assume t8261.t32.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8261.t32.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.55 (step t8261.t32.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t8261.t32.a1))
% 32.29/32.55 (step t8261.t32.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t8261.t32.t1))
% 32.29/32.55 (step t8261.t32.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.55 (step t8261.t32.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8261.t32.a0))
% 32.29/32.55 (step t8261.t32.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8261.t32.t4))
% 32.29/32.55 (step t8261.t32.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8261.t32.t5))
% 32.29/32.55 (step t8261.t32.t7 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e10))) :rule cong :premises (t8261.t32.t3 t8261.t32.t6))
% 32.29/32.55 (step t8261.t32.t8 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule trans :premises (t8261.t32.t2 t8261.t32.t7))
% 32.29/32.55 (step t8261.t32 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule subproof :discharge (t8261.t32.a0 t8261.t32.a1))
% 32.29/32.55 (step t8261.t33 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8261.t34 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8261.t35 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t8261.t32 t8261.t33 t8261.t34))
% 32.29/32.55 (step t8261.t36 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule reordering :premises (t8261.t35))
% 32.29/32.55 (step t8261.t37 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule contraction :premises (t8261.t36))
% 32.29/32.55 (step t8261.t38 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8261.t31 t8261.t37))
% 32.29/32.55 (step t8261.t39 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8261.t40 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8261.t38 t8261.t39))
% 32.29/32.55 (step t8261.t41 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t8261.t40))
% 32.29/32.55 (step t8261.t42 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule implies :premises (t8261.t41))
% 32.29/32.55 (step t8261.t43 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8261.t44 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t8261.t43 t8261.a3 t8261.a1))
% 32.29/32.55 (step t8261.t45 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8261.t42 t8261.t44))
% 32.29/32.55 (step t8261.t46 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t8261.t15 t8261.a4 t8261.t30 t8261.t45 t8261.a0))
% 32.29/32.55 (step t8261.t47 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t8261.t14 t8261.t46))
% 32.29/32.55 (step t8261 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule subproof :discharge (t8261.a0 t8261.a1 t8261.a2 t8261.a3 t8261.a4))
% 32.29/32.55 (step t8262 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8263 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8264 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8265 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8266 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8267 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule resolution :premises (t8261 t8262 t8263 t8264 t8265 t8266))
% 32.29/32.55 (step t8268 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t8267))
% 32.29/32.55 (step t8269 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule contraction :premises (t8268))
% 32.29/32.55 (step t8270 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t8260 t8269))
% 32.29/32.55 (step t8271 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg2)
% 32.29/32.55 (step t8272 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8270 t8271))
% 32.29/32.55 (step t8273 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t8272))
% 32.29/32.55 (step t8274 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies :premises (t8273))
% 32.29/32.55 (step t8275 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t8259 t8274))
% 32.29/32.55 (step t8276 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8277 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8278 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8279 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8280 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule or_neg)
% 32.29/32.55 (step t8281 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8282 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8275 t8276 t8277 t8278 t8279 t8280 t8281))
% 32.29/32.55 (step t8283 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule contraction :premises (t8282))
% 32.29/32.55 (step t8284 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8247 t8258 t8283))
% 32.29/32.55 (step t8285 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)))) :rule or :premises (t8284))
% 32.29/32.55 (step t8286 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8285))
% 32.29/32.55 (step t8287 (cl (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and :premises (t1360))
% 32.29/32.55 (step t8288 (cl (not (= (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (or (= tptp.e13 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))))) (not (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) (or (= tptp.e13 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.55 (step t8289 (cl (= (= (= (not (not (= tptp.e13 tptp.e14))) (= tptp.e13 tptp.e14)) true) (= (not (not (= tptp.e13 tptp.e14))) (= tptp.e13 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.55 (step t8290 (cl (not (= (= (not (not (= tptp.e13 tptp.e14))) (= tptp.e13 tptp.e14)) true)) (= (not (not (= tptp.e13 tptp.e14))) (= tptp.e13 tptp.e14))) :rule equiv1 :premises (t8289))
% 32.29/32.55 (step t8291 (cl (= (= (not (not (= tptp.e13 tptp.e14))) (= tptp.e13 tptp.e14)) (= (= tptp.e13 tptp.e14) (not (not (= tptp.e13 tptp.e14)))))) :rule all_simplify)
% 32.29/32.55 (step t8292 (cl (= (= tptp.e13 tptp.e14) (= tptp.e13 tptp.e14))) :rule refl)
% 32.29/32.55 (step t8293 (cl (= (not (not (= tptp.e13 tptp.e14))) (= tptp.e13 tptp.e14))) :rule all_simplify)
% 32.29/32.55 (step t8294 (cl (= (= (= tptp.e13 tptp.e14) (not (not (= tptp.e13 tptp.e14)))) (= (= tptp.e13 tptp.e14) (= tptp.e13 tptp.e14)))) :rule cong :premises (t8292 t8293))
% 32.29/32.55 (step t8295 (cl (= (= (= tptp.e13 tptp.e14) (= tptp.e13 tptp.e14)) true)) :rule all_simplify)
% 32.29/32.55 (step t8296 (cl (= (= (= tptp.e13 tptp.e14) (not (not (= tptp.e13 tptp.e14)))) true)) :rule trans :premises (t8294 t8295))
% 32.29/32.55 (step t8297 (cl (= (= (not (not (= tptp.e13 tptp.e14))) (= tptp.e13 tptp.e14)) true)) :rule trans :premises (t8291 t8296))
% 32.29/32.55 (step t8298 (cl (= (not (not (= tptp.e13 tptp.e14))) (= tptp.e13 tptp.e14))) :rule resolution :premises (t8290 t8297))
% 32.29/32.55 (step t8299 (cl (= (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule refl)
% 32.29/32.55 (step t8300 (cl (= (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (or (= tptp.e13 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))))) :rule cong :premises (t8298 t2156 t7584 t8299))
% 32.29/32.55 (step t8301 (cl (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.55 (step t8302 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8303)
% 32.29/32.55 (assume t8303.a0 (not (= tptp.e13 tptp.e14)))
% 32.29/32.55 (assume t8303.a1 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.55 (assume t8303.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (step t8303.t1 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8303.t2)
% 32.29/32.55 (assume t8303.t2.a0 (not (= tptp.e13 tptp.e14)))
% 32.29/32.55 (assume t8303.t2.a1 (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))
% 32.29/32.55 (step t8303.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) false) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.55 (step t8303.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) false)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule equiv1 :premises (t8303.t2.t1))
% 32.29/32.55 (step t8303.t2.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.55 (step t8303.t2.t4 (cl (= (tptp.op1 tptp.e10 tptp.e14) tptp.e14)) :rule symm :premises (t8303.t2.a1))
% 32.29/32.55 (step t8303.t2.t5 (cl (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 tptp.e14))) :rule cong :premises (t8303.t2.t3 t8303.t2.t4))
% 32.29/32.55 (step t8303.t2.t6 (cl (= (= (= tptp.e13 tptp.e14) false) (not (= tptp.e13 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.55 (step t8303.t2.t7 (cl (= (= tptp.e13 tptp.e14) false) (not (not (= tptp.e13 tptp.e14)))) :rule equiv2 :premises (t8303.t2.t6))
% 32.29/32.55 (step t8303.t2.t8 (cl (not (not (not (= tptp.e13 tptp.e14)))) (= tptp.e13 tptp.e14)) :rule not_not)
% 32.29/32.55 (step t8303.t2.t9 (cl (= (= tptp.e13 tptp.e14) false) (= tptp.e13 tptp.e14)) :rule resolution :premises (t8303.t2.t7 t8303.t2.t8))
% 32.29/32.55 (step t8303.t2.t10 (cl (= (= tptp.e13 tptp.e14) false)) :rule resolution :premises (t8303.t2.t9 t8303.t2.a0))
% 32.29/32.55 (step t8303.t2.t11 (cl (= (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) false)) :rule trans :premises (t8303.t2.t5 t8303.t2.t10))
% 32.29/32.55 (step t8303.t2.t12 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t8303.t2.t2 t8303.t2.t11))
% 32.29/32.55 (step t8303.t2 (cl (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t8303.t2.a0 t8303.t2.a1))
% 32.29/32.55 (step t8303.t3 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8303.t4 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8303.t5 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t8303.t2 t8303.t3 t8303.t4))
% 32.29/32.55 (step t8303.t6 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t8303.t5))
% 32.29/32.55 (step t8303.t7 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t8303.t6))
% 32.29/32.55 (step t8303.t8 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t8303.t1 t8303.t7))
% 32.29/32.55 (step t8303.t9 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.29/32.55 (step t8303.t10 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t8303.t8 t8303.t9))
% 32.29/32.55 (step t8303.t11 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t8303.t10))
% 32.29/32.55 (step t8303.t12 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t8303.t11))
% 32.29/32.55 (step t8303.t13 (cl (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8303.t14 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8303.t15)
% 32.29/32.55 (assume t8303.t15.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8303.t15.a1 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.55 (step t8303.t15.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14)) :rule symm :premises (t8303.t15.a1))
% 32.29/32.55 (step t8303.t15.t2 (cl (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule symm :premises (t8303.t15.t1))
% 32.29/32.55 (step t8303.t15.t3 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8303.t15.a0))
% 32.29/32.55 (step t8303.t15.t4 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8303.t15.t3))
% 32.29/32.55 (step t8303.t15.t5 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8303.t15.t4))
% 32.29/32.55 (step t8303.t15.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8303.t15.t7 (cl (= (tptp.op1 tptp.unit1 tptp.e14) (tptp.op1 tptp.e10 tptp.e14))) :rule cong :premises (t8303.t15.t5 t8303.t15.t6))
% 32.29/32.55 (step t8303.t15.t8 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule trans :premises (t8303.t15.t2 t8303.t15.t7))
% 32.29/32.55 (step t8303.t15 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule subproof :discharge (t8303.t15.a0 t8303.t15.a1))
% 32.29/32.55 (step t8303.t16 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8303.t17 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8303.t18 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))))) :rule resolution :premises (t8303.t15 t8303.t16 t8303.t17))
% 32.29/32.55 (step t8303.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule reordering :premises (t8303.t18))
% 32.29/32.55 (step t8303.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule contraction :premises (t8303.t19))
% 32.29/32.55 (step t8303.t21 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule resolution :premises (t8303.t14 t8303.t20))
% 32.29/32.55 (step t8303.t22 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies_neg2)
% 32.29/32.55 (step t8303.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t8303.t21 t8303.t22))
% 32.29/32.55 (step t8303.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t8303.t23))
% 32.29/32.55 (step t8303.t25 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule implies :premises (t8303.t24))
% 32.29/32.55 (step t8303.t26 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8303.t27 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))) :rule resolution :premises (t8303.t26 t8303.a2 t8303.a1))
% 32.29/32.55 (step t8303.t28 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14))) :rule resolution :premises (t8303.t25 t8303.t27))
% 32.29/32.55 (step t8303.t29 (cl (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t8303.t13 t8303.a0 t8303.t28))
% 32.29/32.55 (step t8303.t30 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t8303.t12 t8303.t29))
% 32.29/32.55 (step t8303 (cl (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule subproof :discharge (t8303.a0 t8303.a1 t8303.a2))
% 32.29/32.55 (step t8304 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (not (= tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8305 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8306 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8307 (cl (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t8303 t8304 t8305 t8306))
% 32.29/32.55 (step t8308 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule reordering :premises (t8307))
% 32.29/32.55 (step t8309 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule contraction :premises (t8308))
% 32.29/32.55 (step t8310 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t8302 t8309))
% 32.29/32.55 (step t8311 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule implies_neg2)
% 32.29/32.55 (step t8312 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t8310 t8311))
% 32.29/32.55 (step t8313 (cl (=> (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t8312))
% 32.29/32.55 (step t8314 (cl (not (and (not (= tptp.e13 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e10 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule implies :premises (t8313))
% 32.29/32.55 (step t8315 (cl (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule resolution :premises (t8301 t8314))
% 32.29/32.55 (step t8316 (cl (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (not (= tptp.e13 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8317 (cl (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8318 (cl (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8319 (cl (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8320 (cl (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t8315 t8316 t8317 t8318 t8319))
% 32.29/32.55 (step t8321 (cl (or (not (not (= tptp.e13 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule contraction :premises (t8320))
% 32.29/32.55 (step t8322 (cl (or (= tptp.e13 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))))) :rule resolution :premises (t8288 t8300 t8321))
% 32.29/32.55 (step t8323 (cl (= tptp.e13 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)))) :rule or :premises (t8322))
% 32.29/32.55 (step t8324 (cl (= tptp.e13 tptp.e14) (not (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8323))
% 32.29/32.55 (step t8325 (cl (not (= (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))))) (not (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.55 (step t8326 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule refl)
% 32.29/32.55 (step t8327 (cl (= (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))))) :rule cong :premises (t3446 t4929 t7584 t8326))
% 32.29/32.55 (step t8328 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.55 (step t8329 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8330)
% 32.29/32.55 (assume t8330.a0 (not (= tptp.e10 tptp.e12)))
% 32.29/32.55 (assume t8330.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.55 (assume t8330.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (step t8330.t1 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8330.t2)
% 32.29/32.55 (assume t8330.t2.a0 (not (= tptp.e10 tptp.e12)))
% 32.29/32.55 (assume t8330.t2.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))
% 32.29/32.55 (step t8330.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) false) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8330.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) false)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule equiv1 :premises (t8330.t2.t1))
% 32.29/32.55 (step t8330.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.55 (step t8330.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12)) :rule symm :premises (t8330.t2.a1))
% 32.29/32.55 (step t8330.t2.t5 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule symm :premises (t8330.t2.t4))
% 32.29/32.55 (step t8330.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12)) :rule symm :premises (t8330.t2.t5))
% 32.29/32.55 (step t8330.t2.t7 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 tptp.e12))) :rule cong :premises (t8330.t2.t3 t8330.t2.t6))
% 32.29/32.55 (step t8330.t2.t8 (cl (= (= (= tptp.e10 tptp.e12) false) (not (= tptp.e10 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.55 (step t8330.t2.t9 (cl (= (= tptp.e10 tptp.e12) false) (not (not (= tptp.e10 tptp.e12)))) :rule equiv2 :premises (t8330.t2.t8))
% 32.29/32.55 (step t8330.t2.t10 (cl (not (not (not (= tptp.e10 tptp.e12)))) (= tptp.e10 tptp.e12)) :rule not_not)
% 32.29/32.55 (step t8330.t2.t11 (cl (= (= tptp.e10 tptp.e12) false) (= tptp.e10 tptp.e12)) :rule resolution :premises (t8330.t2.t9 t8330.t2.t10))
% 32.29/32.55 (step t8330.t2.t12 (cl (= (= tptp.e10 tptp.e12) false)) :rule resolution :premises (t8330.t2.t11 t8330.t2.a0))
% 32.29/32.55 (step t8330.t2.t13 (cl (= (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) false)) :rule trans :premises (t8330.t2.t7 t8330.t2.t12))
% 32.29/32.55 (step t8330.t2.t14 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8330.t2.t2 t8330.t2.t13))
% 32.29/32.55 (step t8330.t2 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule subproof :discharge (t8330.t2.a0 t8330.t2.a1))
% 32.29/32.55 (step t8330.t3 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.55 (step t8330.t4 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8330.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t8330.t2 t8330.t3 t8330.t4))
% 32.29/32.55 (step t8330.t6 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule reordering :premises (t8330.t5))
% 32.29/32.55 (step t8330.t7 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t8330.t6))
% 32.29/32.55 (step t8330.t8 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8330.t1 t8330.t7))
% 32.29/32.55 (step t8330.t9 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8330.t10 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t8330.t8 t8330.t9))
% 32.29/32.55 (step t8330.t11 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t8330.t10))
% 32.29/32.55 (step t8330.t12 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies :premises (t8330.t11))
% 32.29/32.55 (step t8330.t13 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule and_neg)
% 32.29/32.55 (step t8330.t14 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8330.t15)
% 32.29/32.55 (assume t8330.t15.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8330.t15.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.55 (step t8330.t15.t1 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t8330.t15.a1))
% 32.29/32.55 (step t8330.t15.t2 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule symm :premises (t8330.t15.t1))
% 32.29/32.55 (step t8330.t15.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.55 (step t8330.t15.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8330.t15.a0))
% 32.29/32.55 (step t8330.t15.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8330.t15.t4))
% 32.29/32.55 (step t8330.t15.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8330.t15.t5))
% 32.29/32.55 (step t8330.t15.t7 (cl (= (tptp.op1 tptp.e12 tptp.unit1) (tptp.op1 tptp.e12 tptp.e10))) :rule cong :premises (t8330.t15.t3 t8330.t15.t6))
% 32.29/32.55 (step t8330.t15.t8 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule trans :premises (t8330.t15.t2 t8330.t15.t7))
% 32.29/32.55 (step t8330.t15 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule subproof :discharge (t8330.t15.a0 t8330.t15.a1))
% 32.29/32.55 (step t8330.t16 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8330.t17 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8330.t18 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule resolution :premises (t8330.t15 t8330.t16 t8330.t17))
% 32.29/32.55 (step t8330.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule reordering :premises (t8330.t18))
% 32.29/32.55 (step t8330.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule contraction :premises (t8330.t19))
% 32.29/32.55 (step t8330.t21 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t8330.t14 t8330.t20))
% 32.29/32.55 (step t8330.t22 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8330.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8330.t21 t8330.t22))
% 32.29/32.55 (step t8330.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t8330.t23))
% 32.29/32.55 (step t8330.t25 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule implies :premises (t8330.t24))
% 32.29/32.55 (step t8330.t26 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8330.t27 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule resolution :premises (t8330.t26 t8330.a2 t8330.a1))
% 32.29/32.55 (step t8330.t28 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t8330.t25 t8330.t27))
% 32.29/32.55 (step t8330.t29 (cl (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8330.t13 t8330.a0 t8330.t28))
% 32.29/32.55 (step t8330.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8330.t12 t8330.t29))
% 32.29/32.55 (step t8330 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule subproof :discharge (t8330.a0 t8330.a1 t8330.a2))
% 32.29/32.55 (step t8331 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.55 (step t8332 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8333 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8334 (cl (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t8330 t8331 t8332 t8333))
% 32.29/32.55 (step t8335 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule reordering :premises (t8334))
% 32.29/32.55 (step t8336 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t8335))
% 32.29/32.55 (step t8337 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8329 t8336))
% 32.29/32.55 (step t8338 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8339 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t8337 t8338))
% 32.29/32.55 (step t8340 (cl (=> (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t8339))
% 32.29/32.55 (step t8341 (cl (not (and (not (= tptp.e10 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies :premises (t8340))
% 32.29/32.55 (step t8342 (cl (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8328 t8341))
% 32.29/32.55 (step t8343 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (not (= tptp.e10 tptp.e12))))) :rule or_neg)
% 32.29/32.55 (step t8344 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8345 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8346 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule or_neg)
% 32.29/32.55 (step t8347 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t8342 t8343 t8344 t8345 t8346))
% 32.29/32.55 (step t8348 (cl (or (not (not (= tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t8347))
% 32.29/32.55 (step t8349 (cl (or (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t8325 t8327 t8348))
% 32.29/32.55 (step t8350 (cl (= tptp.e10 tptp.e12) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)))) :rule or :premises (t8349))
% 32.29/32.55 (step t8351 (cl (= tptp.e10 tptp.e12) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8350))
% 32.29/32.55 (step t8352 (cl (not (= (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))))) (not (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.55 (step t8353 (cl (= (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))))) :rule cong :premises (t5268 t7807 t7584 t1824))
% 32.29/32.55 (step t8354 (cl (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.55 (step t8355 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8356)
% 32.29/32.55 (assume t8356.a0 (not (= tptp.e11 tptp.e13)))
% 32.29/32.55 (assume t8356.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (assume t8356.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (step t8356.t1 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8356.t2)
% 32.29/32.55 (assume t8356.t2.a0 (not (= tptp.e11 tptp.e13)))
% 32.29/32.55 (assume t8356.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))
% 32.29/32.55 (step t8356.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) false) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8356.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) false)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule equiv1 :premises (t8356.t2.t1))
% 32.29/32.55 (step t8356.t2.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.55 (step t8356.t2.t4 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13)) :rule symm :premises (t8356.t2.a1))
% 32.29/32.55 (step t8356.t2.t5 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule symm :premises (t8356.t2.t4))
% 32.29/32.55 (step t8356.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13)) :rule symm :premises (t8356.t2.t5))
% 32.29/32.55 (step t8356.t2.t7 (cl (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 tptp.e13))) :rule cong :premises (t8356.t2.t3 t8356.t2.t6))
% 32.29/32.55 (step t8356.t2.t8 (cl (= (= (= tptp.e11 tptp.e13) false) (not (= tptp.e11 tptp.e13)))) :rule equiv_simplify)
% 32.29/32.55 (step t8356.t2.t9 (cl (= (= tptp.e11 tptp.e13) false) (not (not (= tptp.e11 tptp.e13)))) :rule equiv2 :premises (t8356.t2.t8))
% 32.29/32.55 (step t8356.t2.t10 (cl (not (not (not (= tptp.e11 tptp.e13)))) (= tptp.e11 tptp.e13)) :rule not_not)
% 32.29/32.55 (step t8356.t2.t11 (cl (= (= tptp.e11 tptp.e13) false) (= tptp.e11 tptp.e13)) :rule resolution :premises (t8356.t2.t9 t8356.t2.t10))
% 32.29/32.55 (step t8356.t2.t12 (cl (= (= tptp.e11 tptp.e13) false)) :rule resolution :premises (t8356.t2.t11 t8356.t2.a0))
% 32.29/32.55 (step t8356.t2.t13 (cl (= (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) false)) :rule trans :premises (t8356.t2.t7 t8356.t2.t12))
% 32.29/32.55 (step t8356.t2.t14 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8356.t2.t2 t8356.t2.t13))
% 32.29/32.55 (step t8356.t2 (cl (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t8356.t2.a0 t8356.t2.a1))
% 32.29/32.55 (step t8356.t3 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.55 (step t8356.t4 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8356.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t8356.t2 t8356.t3 t8356.t4))
% 32.29/32.55 (step t8356.t6 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t8356.t5))
% 32.29/32.55 (step t8356.t7 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t8356.t6))
% 32.29/32.55 (step t8356.t8 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8356.t1 t8356.t7))
% 32.29/32.55 (step t8356.t9 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8356.t10 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t8356.t8 t8356.t9))
% 32.29/32.55 (step t8356.t11 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t8356.t10))
% 32.29/32.55 (step t8356.t12 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t8356.t11))
% 32.29/32.55 (step t8356.t13 (cl (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_neg)
% 32.29/32.55 (step t8356.t14 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8356.t15)
% 32.29/32.55 (assume t8356.t15.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8356.t15.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (step t8356.t15.t1 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t8356.t15.a1))
% 32.29/32.55 (step t8356.t15.t2 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule symm :premises (t8356.t15.t1))
% 32.29/32.55 (step t8356.t15.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.55 (step t8356.t15.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8356.t15.a0))
% 32.29/32.55 (step t8356.t15.t5 (cl (= (tptp.op1 tptp.e13 tptp.unit1) (tptp.op1 tptp.e13 tptp.e10))) :rule cong :premises (t8356.t15.t3 t8356.t15.t4))
% 32.29/32.55 (step t8356.t15.t6 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t8356.t15.t2 t8356.t15.t5))
% 32.29/32.55 (step t8356.t15 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t8356.t15.a0 t8356.t15.a1))
% 32.29/32.55 (step t8356.t16 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8356.t17 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8356.t18 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule resolution :premises (t8356.t15 t8356.t16 t8356.t17))
% 32.29/32.55 (step t8356.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t8356.t18))
% 32.29/32.55 (step t8356.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t8356.t19))
% 32.29/32.55 (step t8356.t21 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8356.t14 t8356.t20))
% 32.29/32.55 (step t8356.t22 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8356.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8356.t21 t8356.t22))
% 32.29/32.55 (step t8356.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t8356.t23))
% 32.29/32.55 (step t8356.t25 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t8356.t24))
% 32.29/32.55 (step t8356.t26 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8356.t27 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule resolution :premises (t8356.t26 t8356.a2 t8356.a1))
% 32.29/32.55 (step t8356.t28 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8356.t25 t8356.t27))
% 32.29/32.55 (step t8356.t29 (cl (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8356.t13 t8356.a0 t8356.t28))
% 32.29/32.55 (step t8356.t30 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8356.t12 t8356.t29))
% 32.29/32.55 (step t8356 (cl (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule subproof :discharge (t8356.a0 t8356.a1 t8356.a2))
% 32.29/32.55 (step t8357 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.55 (step t8358 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8359 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8360 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t8356 t8357 t8358 t8359))
% 32.29/32.55 (step t8361 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule reordering :premises (t8360))
% 32.29/32.55 (step t8362 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t8361))
% 32.29/32.55 (step t8363 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8355 t8362))
% 32.29/32.55 (step t8364 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8365 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t8363 t8364))
% 32.29/32.55 (step t8366 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t8365))
% 32.29/32.55 (step t8367 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies :premises (t8366))
% 32.29/32.55 (step t8368 (cl (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8354 t8367))
% 32.29/32.55 (step t8369 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (not (= tptp.e11 tptp.e13))))) :rule or_neg)
% 32.29/32.55 (step t8370 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8371 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8372 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (not (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule or_neg)
% 32.29/32.55 (step t8373 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t8368 t8369 t8370 t8371 t8372))
% 32.29/32.55 (step t8374 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule contraction :premises (t8373))
% 32.29/32.55 (step t8375 (cl (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t8352 t8353 t8374))
% 32.29/32.55 (step t8376 (cl (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)))) :rule or :premises (t8375))
% 32.29/32.55 (step t8377 (cl (= tptp.e11 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8376))
% 32.29/32.55 (step t8378 (cl (not (= (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (or (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))))) (not (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) (or (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.55 (step t8379 (cl (= (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (or (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))))) :rule cong :premises (t7063 t1114 t7584 t3448))
% 32.29/32.55 (step t8380 (cl (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.55 (step t8381 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8382)
% 32.29/32.55 (assume t8382.a0 (not (= tptp.e10 tptp.e14)))
% 32.29/32.55 (assume t8382.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (assume t8382.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (step t8382.t1 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8382.t2)
% 32.29/32.55 (assume t8382.t2.a0 (not (= tptp.e10 tptp.e14)))
% 32.29/32.55 (assume t8382.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.55 (step t8382.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) false) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8382.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) false)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule equiv1 :premises (t8382.t2.t1))
% 32.29/32.55 (step t8382.t2.t3 (cl (= tptp.e10 tptp.e10)) :rule refl)
% 32.29/32.55 (step t8382.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) :rule symm :premises (t8382.t2.a1))
% 32.29/32.55 (step t8382.t2.t5 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule symm :premises (t8382.t2.t4))
% 32.29/32.55 (step t8382.t2.t6 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) :rule symm :premises (t8382.t2.t5))
% 32.29/32.55 (step t8382.t2.t7 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 tptp.e14))) :rule cong :premises (t8382.t2.t3 t8382.t2.t6))
% 32.29/32.55 (step t8382.t2.t8 (cl (= (= (= tptp.e10 tptp.e14) false) (not (= tptp.e10 tptp.e14)))) :rule equiv_simplify)
% 32.29/32.55 (step t8382.t2.t9 (cl (= (= tptp.e10 tptp.e14) false) (not (not (= tptp.e10 tptp.e14)))) :rule equiv2 :premises (t8382.t2.t8))
% 32.29/32.55 (step t8382.t2.t10 (cl (not (not (not (= tptp.e10 tptp.e14)))) (= tptp.e10 tptp.e14)) :rule not_not)
% 32.29/32.55 (step t8382.t2.t11 (cl (= (= tptp.e10 tptp.e14) false) (= tptp.e10 tptp.e14)) :rule resolution :premises (t8382.t2.t9 t8382.t2.t10))
% 32.29/32.55 (step t8382.t2.t12 (cl (= (= tptp.e10 tptp.e14) false)) :rule resolution :premises (t8382.t2.t11 t8382.t2.a0))
% 32.29/32.55 (step t8382.t2.t13 (cl (= (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) false)) :rule trans :premises (t8382.t2.t7 t8382.t2.t12))
% 32.29/32.55 (step t8382.t2.t14 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8382.t2.t2 t8382.t2.t13))
% 32.29/32.55 (step t8382.t2 (cl (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule subproof :discharge (t8382.t2.a0 t8382.t2.a1))
% 32.29/32.55 (step t8382.t3 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8382.t4 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8382.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t8382.t2 t8382.t3 t8382.t4))
% 32.29/32.55 (step t8382.t6 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule reordering :premises (t8382.t5))
% 32.29/32.55 (step t8382.t7 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t8382.t6))
% 32.29/32.55 (step t8382.t8 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8382.t1 t8382.t7))
% 32.29/32.55 (step t8382.t9 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8382.t10 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t8382.t8 t8382.t9))
% 32.29/32.55 (step t8382.t11 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t8382.t10))
% 32.29/32.55 (step t8382.t12 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies :premises (t8382.t11))
% 32.29/32.55 (step t8382.t13 (cl (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule and_neg)
% 32.29/32.55 (step t8382.t14 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8382.t15)
% 32.29/32.55 (assume t8382.t15.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8382.t15.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (step t8382.t15.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t8382.t15.a1))
% 32.29/32.55 (step t8382.t15.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t8382.t15.t1))
% 32.29/32.55 (step t8382.t15.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8382.t15.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8382.t15.a0))
% 32.29/32.55 (step t8382.t15.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8382.t15.t4))
% 32.29/32.55 (step t8382.t15.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8382.t15.t5))
% 32.29/32.55 (step t8382.t15.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e10))) :rule cong :premises (t8382.t15.t3 t8382.t15.t6))
% 32.29/32.55 (step t8382.t15.t8 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule trans :premises (t8382.t15.t2 t8382.t15.t7))
% 32.29/32.55 (step t8382.t15 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule subproof :discharge (t8382.t15.a0 t8382.t15.a1))
% 32.29/32.55 (step t8382.t16 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8382.t17 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8382.t18 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t8382.t15 t8382.t16 t8382.t17))
% 32.29/32.55 (step t8382.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule reordering :premises (t8382.t18))
% 32.29/32.55 (step t8382.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule contraction :premises (t8382.t19))
% 32.29/32.55 (step t8382.t21 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t8382.t14 t8382.t20))
% 32.29/32.55 (step t8382.t22 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8382.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8382.t21 t8382.t22))
% 32.29/32.55 (step t8382.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t8382.t23))
% 32.29/32.55 (step t8382.t25 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule implies :premises (t8382.t24))
% 32.29/32.55 (step t8382.t26 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8382.t27 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t8382.t26 t8382.a2 t8382.a1))
% 32.29/32.55 (step t8382.t28 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t8382.t25 t8382.t27))
% 32.29/32.55 (step t8382.t29 (cl (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8382.t13 t8382.a0 t8382.t28))
% 32.29/32.55 (step t8382.t30 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8382.t12 t8382.t29))
% 32.29/32.55 (step t8382 (cl (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule subproof :discharge (t8382.a0 t8382.a1 t8382.a2))
% 32.29/32.55 (step t8383 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8384 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8385 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8386 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t8382 t8383 t8384 t8385))
% 32.29/32.55 (step t8387 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule reordering :premises (t8386))
% 32.29/32.55 (step t8388 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t8387))
% 32.29/32.55 (step t8389 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8381 t8388))
% 32.29/32.55 (step t8390 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8391 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t8389 t8390))
% 32.29/32.55 (step t8392 (cl (=> (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t8391))
% 32.29/32.55 (step t8393 (cl (not (and (not (= tptp.e10 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies :premises (t8392))
% 32.29/32.55 (step t8394 (cl (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8380 t8393))
% 32.29/32.55 (step t8395 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (not (= tptp.e10 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8396 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8397 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8398 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule or_neg)
% 32.29/32.55 (step t8399 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t8394 t8395 t8396 t8397 t8398))
% 32.29/32.55 (step t8400 (cl (or (not (not (= tptp.e10 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule contraction :premises (t8399))
% 32.29/32.55 (step t8401 (cl (or (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t8378 t8379 t8400))
% 32.29/32.55 (step t8402 (cl (= tptp.e10 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)))) :rule or :premises (t8401))
% 32.29/32.55 (step t8403 (cl (= tptp.e10 tptp.e14) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8402))
% 32.29/32.55 (step t8404 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_pos2)
% 32.29/32.55 (step t8405 (cl (= (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true) (= (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8406 (cl (not (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true)) (= (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule equiv1 :premises (t8405))
% 32.29/32.55 (step t8407 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))))) :rule all_simplify)
% 32.29/32.55 (step t8408 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule refl)
% 32.29/32.55 (step t8409 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule all_simplify)
% 32.29/32.55 (step t8410 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule cong :premises (t8408 t8409))
% 32.29/32.55 (step t8411 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true)) :rule all_simplify)
% 32.29/32.55 (step t8412 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) true)) :rule trans :premises (t8410 t8411))
% 32.29/32.55 (step t8413 (cl (= (= (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) true)) :rule trans :premises (t8407 t8412))
% 32.29/32.55 (step t8414 (cl (= (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8406 t8413))
% 32.29/32.55 (step t8415 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))))) :rule cong :premises (t1111 t2127 t1113 t4929 t7584 t8414 t3046))
% 32.29/32.55 (step t8416 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule and_neg)
% 32.29/32.55 (step t8417 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8418)
% 32.29/32.55 (assume t8418.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8418.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.55 (assume t8418.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.55 (assume t8418.a3 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.55 (assume t8418.a4 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8418.a5 (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (step t8418.t1 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8418.t2)
% 32.29/32.55 (assume t8418.t2.a0 (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (assume t8418.t2.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))
% 32.29/32.55 (assume t8418.t2.a2 (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))
% 32.29/32.55 (assume t8418.t2.a3 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8418.t2.a4 (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))
% 32.29/32.55 (step t8418.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) false) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule equiv_simplify)
% 32.29/32.55 (step t8418.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) false)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule equiv1 :premises (t8418.t2.t1))
% 32.29/32.55 (step t8418.t2.t3 (cl (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12)) :rule symm :premises (t8418.t2.a1))
% 32.29/32.55 (step t8418.t2.t4 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule symm :premises (t8418.t2.t3))
% 32.29/32.55 (step t8418.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8418.t2.a3))
% 32.29/32.55 (step t8418.t2.t6 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8418.t2.t5))
% 32.29/32.55 (step t8418.t2.t7 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8418.t2.t6))
% 32.29/32.55 (step t8418.t2.t8 (cl (= (tptp.op1 tptp.e11 tptp.e10) tptp.e11)) :rule symm :premises (t8418.t2.a2))
% 32.29/32.55 (step t8418.t2.t9 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule symm :premises (t8418.t2.t8))
% 32.29/32.55 (step t8418.t2.t10 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e11 tptp.e10))) :rule trans :premises (t8418.t2.t7 t8418.t2.t9))
% 32.29/32.55 (step t8418.t2.t11 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8418.t2.t10))
% 32.29/32.55 (step t8418.t2.t12 (cl (= (tptp.op1 tptp.e10 tptp.e11) tptp.e11)) :rule symm :premises (t8418.t2.a4))
% 32.29/32.55 (step t8418.t2.t13 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e14 tptp.e14))) :rule trans :premises (t8418.t2.t12 t8418.t2.t6))
% 32.29/32.55 (step t8418.t2.t14 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e10 tptp.e11))) :rule symm :premises (t8418.t2.t13))
% 32.29/32.55 (step t8418.t2.t15 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e10 tptp.e11))) :rule trans :premises (t8418.t2.t11 t8418.t2.t14))
% 32.29/32.55 (step t8418.t2.t16 (cl (= (tptp.op1 tptp.e10 tptp.e11) (tptp.op1 tptp.e11 tptp.e10))) :rule symm :premises (t8418.t2.t15))
% 32.29/32.55 (step t8418.t2.t17 (cl (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule cong :premises (t8418.t2.t4 t8418.t2.t16))
% 32.29/32.55 (step t8418.t2.t18 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8418.t2.t19 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv2 :premises (t8418.t2.t18))
% 32.29/32.55 (step t8418.t2.t20 (cl (not (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule not_not)
% 32.29/32.55 (step t8418.t2.t21 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8418.t2.t19 t8418.t2.t20))
% 32.29/32.55 (step t8418.t2.t22 (cl (= (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false)) :rule resolution :premises (t8418.t2.t21 t8418.t2.a0))
% 32.29/32.55 (step t8418.t2.t23 (cl (= (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) false)) :rule trans :premises (t8418.t2.t17 t8418.t2.t22))
% 32.29/32.55 (step t8418.t2.t24 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8418.t2.t2 t8418.t2.t23))
% 32.29/32.55 (step t8418.t2 (cl (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t8418.t2.a0 t8418.t2.a1 t8418.t2.a2 t8418.t2.a3 t8418.t2.a4))
% 32.29/32.55 (step t8418.t3 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8418.t4 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8418.t5 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8418.t6 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8418.t7 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8418.t8 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8418.t2 t8418.t3 t8418.t4 t8418.t5 t8418.t6 t8418.t7))
% 32.29/32.55 (step t8418.t9 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t8418.t8))
% 32.29/32.55 (step t8418.t10 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t8418.t9))
% 32.29/32.55 (step t8418.t11 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8418.t1 t8418.t10))
% 32.29/32.55 (step t8418.t12 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8418.t13 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8418.t11 t8418.t12))
% 32.29/32.55 (step t8418.t14 (cl (=> (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t8418.t13))
% 32.29/32.55 (step t8418.t15 (cl (not (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t8418.t14))
% 32.29/32.55 (step t8418.t16 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t8418.t17 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8418.t18)
% 32.29/32.55 (assume t8418.t18.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8418.t18.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.55 (step t8418.t18.t1 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t8418.t18.a1))
% 32.29/32.55 (step t8418.t18.t2 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule symm :premises (t8418.t18.t1))
% 32.29/32.55 (step t8418.t18.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.55 (step t8418.t18.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8418.t18.a0))
% 32.29/32.55 (step t8418.t18.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8418.t18.t4))
% 32.29/32.55 (step t8418.t18.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8418.t18.t5))
% 32.29/32.55 (step t8418.t18.t7 (cl (= (tptp.op1 tptp.e12 tptp.unit1) (tptp.op1 tptp.e12 tptp.e10))) :rule cong :premises (t8418.t18.t3 t8418.t18.t6))
% 32.29/32.55 (step t8418.t18.t8 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule trans :premises (t8418.t18.t2 t8418.t18.t7))
% 32.29/32.55 (step t8418.t18 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule subproof :discharge (t8418.t18.a0 t8418.t18.a1))
% 32.29/32.55 (step t8418.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8418.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8418.t21 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule resolution :premises (t8418.t18 t8418.t19 t8418.t20))
% 32.29/32.55 (step t8418.t22 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule reordering :premises (t8418.t21))
% 32.29/32.55 (step t8418.t23 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule contraction :premises (t8418.t22))
% 32.29/32.55 (step t8418.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t8418.t17 t8418.t23))
% 32.29/32.55 (step t8418.t25 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8418.t26 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8418.t24 t8418.t25))
% 32.29/32.55 (step t8418.t27 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t8418.t26))
% 32.29/32.55 (step t8418.t28 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule implies :premises (t8418.t27))
% 32.29/32.55 (step t8418.t29 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8418.t30 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule resolution :premises (t8418.t29 t8418.a4 t8418.a3))
% 32.29/32.55 (step t8418.t31 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t8418.t28 t8418.t30))
% 32.29/32.55 (step t8418.t32 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8418.t33)
% 32.29/32.55 (assume t8418.t33.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8418.t33.a1 (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))
% 32.29/32.55 (step t8418.t33.t1 (cl (= (tptp.op1 tptp.e11 tptp.unit1) tptp.e11)) :rule symm :premises (t8418.t33.a1))
% 32.29/32.55 (step t8418.t33.t2 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule symm :premises (t8418.t33.t1))
% 32.29/32.55 (step t8418.t33.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.55 (step t8418.t33.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8418.t33.a0))
% 32.29/32.55 (step t8418.t33.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8418.t33.t4))
% 32.29/32.55 (step t8418.t33.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8418.t33.t5))
% 32.29/32.55 (step t8418.t33.t7 (cl (= (tptp.op1 tptp.e11 tptp.unit1) (tptp.op1 tptp.e11 tptp.e10))) :rule cong :premises (t8418.t33.t3 t8418.t33.t6))
% 32.29/32.55 (step t8418.t33.t8 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule trans :premises (t8418.t33.t2 t8418.t33.t7))
% 32.29/32.55 (step t8418.t33 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule subproof :discharge (t8418.t33.a0 t8418.t33.a1))
% 32.29/32.55 (step t8418.t34 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8418.t35 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8418.t36 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule resolution :premises (t8418.t33 t8418.t34 t8418.t35))
% 32.29/32.55 (step t8418.t37 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule reordering :premises (t8418.t36))
% 32.29/32.55 (step t8418.t38 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule contraction :premises (t8418.t37))
% 32.29/32.55 (step t8418.t39 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8418.t32 t8418.t38))
% 32.29/32.55 (step t8418.t40 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8418.t41 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8418.t39 t8418.t40))
% 32.29/32.55 (step t8418.t42 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t8418.t41))
% 32.29/32.55 (step t8418.t43 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule implies :premises (t8418.t42))
% 32.29/32.55 (step t8418.t44 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8418.t45 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)))) :rule resolution :premises (t8418.t44 t8418.a4 t8418.a2))
% 32.29/32.55 (step t8418.t46 (cl (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8418.t43 t8418.t45))
% 32.29/32.55 (step t8418.t47 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8418.t48)
% 32.29/32.55 (assume t8418.t48.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8418.t48.a1 (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))
% 32.29/32.55 (step t8418.t48.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e11) tptp.e11)) :rule symm :premises (t8418.t48.a1))
% 32.29/32.55 (step t8418.t48.t2 (cl (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule symm :premises (t8418.t48.t1))
% 32.29/32.55 (step t8418.t48.t3 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8418.t48.a0))
% 32.29/32.55 (step t8418.t48.t4 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8418.t48.t3))
% 32.29/32.55 (step t8418.t48.t5 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8418.t48.t4))
% 32.29/32.55 (step t8418.t48.t6 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.29/32.55 (step t8418.t48.t7 (cl (= (tptp.op1 tptp.unit1 tptp.e11) (tptp.op1 tptp.e10 tptp.e11))) :rule cong :premises (t8418.t48.t5 t8418.t48.t6))
% 32.29/32.55 (step t8418.t48.t8 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule trans :premises (t8418.t48.t2 t8418.t48.t7))
% 32.29/32.55 (step t8418.t48 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule subproof :discharge (t8418.t48.a0 t8418.t48.a1))
% 32.29/32.55 (step t8418.t49 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8418.t50 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8418.t51 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule resolution :premises (t8418.t48 t8418.t49 t8418.t50))
% 32.29/32.55 (step t8418.t52 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule reordering :premises (t8418.t51))
% 32.29/32.55 (step t8418.t53 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule contraction :premises (t8418.t52))
% 32.29/32.55 (step t8418.t54 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t8418.t47 t8418.t53))
% 32.29/32.55 (step t8418.t55 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies_neg2)
% 32.29/32.55 (step t8418.t56 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8418.t54 t8418.t55))
% 32.29/32.55 (step t8418.t57 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t8418.t56))
% 32.29/32.55 (step t8418.t58 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule implies :premises (t8418.t57))
% 32.29/32.55 (step t8418.t59 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule and_neg)
% 32.29/32.55 (step t8418.t60 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)))) :rule resolution :premises (t8418.t59 t8418.a4 t8418.a1))
% 32.29/32.55 (step t8418.t61 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t8418.t58 t8418.t60))
% 32.29/32.55 (step t8418.t62 (cl (and (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8418.t16 t8418.a5 t8418.t31 t8418.t46 t8418.a0 t8418.t61))
% 32.29/32.55 (step t8418.t63 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8418.t15 t8418.t62))
% 32.29/32.55 (step t8418 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule subproof :discharge (t8418.a0 t8418.a1 t8418.a2 t8418.a3 t8418.a4 t8418.a5))
% 32.29/32.55 (step t8419 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8420 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) :rule and_pos)
% 32.29/32.55 (step t8421 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8422 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8423 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8424 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8425 (cl (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule resolution :premises (t8418 t8419 t8420 t8421 t8422 t8423 t8424))
% 32.29/32.55 (step t8426 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule reordering :premises (t8425))
% 32.29/32.55 (step t8427 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule contraction :premises (t8426))
% 32.29/32.55 (step t8428 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8417 t8427))
% 32.29/32.55 (step t8429 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule implies_neg2)
% 32.29/32.55 (step t8430 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8428 t8429))
% 32.29/32.55 (step t8431 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t8430))
% 32.29/32.55 (step t8432 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule implies :premises (t8431))
% 32.29/32.55 (step t8433 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule resolution :premises (t8416 t8432))
% 32.29/32.55 (step t8434 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8435 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8436 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8437 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8438 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8439 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule or_neg)
% 32.29/32.55 (step t8440 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (not (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule or_neg)
% 32.29/32.55 (step t8441 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8433 t8434 t8435 t8436 t8437 t8438 t8439 t8440))
% 32.29/32.55 (step t8442 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule contraction :premises (t8441))
% 32.29/32.55 (step t8443 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))))) :rule resolution :premises (t8404 t8415 t8442))
% 32.29/32.55 (step t8444 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)))) :rule or :premises (t8443))
% 32.29/32.55 (step t8445 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.unit1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.unit1))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8444))
% 32.29/32.55 (step t8446 (cl (not (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and :premises (t1360))
% 32.29/32.55 (step t8447 (cl (not (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))))) (not (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.55 (step t8448 (cl (= (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule refl)
% 32.29/32.55 (step t8449 (cl (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))))) :rule cong :premises (t1952 t1111 t7584 t1904 t8448))
% 32.29/32.55 (step t8450 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8451 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8452)
% 32.29/32.55 (assume t8452.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.55 (assume t8452.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8452.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8452.a3 (not (= tptp.e14 tptp.unit1)))
% 32.29/32.55 (step t8452.t1 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8452.t2)
% 32.29/32.55 (assume t8452.t2.a0 (not (= tptp.e14 tptp.unit1)))
% 32.29/32.55 (assume t8452.t2.a1 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8452.t2.a2 (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))
% 32.29/32.55 (step t8452.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) false) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.55 (step t8452.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) false)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule equiv1 :premises (t8452.t2.t1))
% 32.29/32.55 (step t8452.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8452.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t8452.t2.a2))
% 32.29/32.55 (step t8452.t2.t5 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule symm :premises (t8452.t2.t4))
% 32.29/32.55 (step t8452.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t8452.t2.t5))
% 32.29/32.55 (step t8452.t2.t7 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8452.t2.a1))
% 32.29/32.55 (step t8452.t2.t8 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8452.t2.t7))
% 32.29/32.55 (step t8452.t2.t9 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.unit1)) :rule trans :premises (t8452.t2.t6 t8452.t2.t8))
% 32.29/32.55 (step t8452.t2.t10 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 tptp.unit1))) :rule cong :premises (t8452.t2.t3 t8452.t2.t9))
% 32.29/32.55 (step t8452.t2.t11 (cl (= (= (= tptp.e14 tptp.unit1) false) (not (= tptp.e14 tptp.unit1)))) :rule equiv_simplify)
% 32.29/32.55 (step t8452.t2.t12 (cl (= (= tptp.e14 tptp.unit1) false) (not (not (= tptp.e14 tptp.unit1)))) :rule equiv2 :premises (t8452.t2.t11))
% 32.29/32.55 (step t8452.t2.t13 (cl (not (not (not (= tptp.e14 tptp.unit1)))) (= tptp.e14 tptp.unit1)) :rule not_not)
% 32.29/32.55 (step t8452.t2.t14 (cl (= (= tptp.e14 tptp.unit1) false) (= tptp.e14 tptp.unit1)) :rule resolution :premises (t8452.t2.t12 t8452.t2.t13))
% 32.29/32.55 (step t8452.t2.t15 (cl (= (= tptp.e14 tptp.unit1) false)) :rule resolution :premises (t8452.t2.t14 t8452.t2.a0))
% 32.29/32.55 (step t8452.t2.t16 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) false)) :rule trans :premises (t8452.t2.t10 t8452.t2.t15))
% 32.29/32.55 (step t8452.t2.t17 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8452.t2.t2 t8452.t2.t16))
% 32.29/32.55 (step t8452.t2 (cl (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule subproof :discharge (t8452.t2.a0 t8452.t2.a1 t8452.t2.a2))
% 32.29/32.55 (step t8452.t3 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8452.t4 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8452.t5 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8452.t6 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8452.t2 t8452.t3 t8452.t4 t8452.t5))
% 32.29/32.55 (step t8452.t7 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule reordering :premises (t8452.t6))
% 32.29/32.55 (step t8452.t8 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t8452.t7))
% 32.29/32.55 (step t8452.t9 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8452.t1 t8452.t8))
% 32.29/32.55 (step t8452.t10 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg2)
% 32.29/32.55 (step t8452.t11 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8452.t9 t8452.t10))
% 32.29/32.55 (step t8452.t12 (cl (=> (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t8452.t11))
% 32.29/32.55 (step t8452.t13 (cl (not (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies :premises (t8452.t12))
% 32.29/32.55 (step t8452.t14 (cl (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8452.t15 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8452.t16)
% 32.29/32.55 (assume t8452.t16.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8452.t16.a1 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.55 (step t8452.t16.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t8452.t16.a1))
% 32.29/32.55 (step t8452.t16.t2 (cl (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule symm :premises (t8452.t16.t1))
% 32.29/32.55 (step t8452.t16.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8452.t16.a0))
% 32.29/32.55 (step t8452.t16.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8452.t16.t3))
% 32.29/32.55 (step t8452.t16.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8452.t16.t4))
% 32.29/32.55 (step t8452.t16.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8452.t16.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule cong :premises (t8452.t16.t5 t8452.t16.t6))
% 32.29/32.55 (step t8452.t16.t8 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t8452.t16.t2 t8452.t16.t7))
% 32.29/32.55 (step t8452.t16 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule subproof :discharge (t8452.t16.a0 t8452.t16.a1))
% 32.29/32.55 (step t8452.t17 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8452.t18 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8452.t19 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule resolution :premises (t8452.t16 t8452.t17 t8452.t18))
% 32.29/32.55 (step t8452.t20 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule reordering :premises (t8452.t19))
% 32.29/32.55 (step t8452.t21 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule contraction :premises (t8452.t20))
% 32.29/32.55 (step t8452.t22 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t8452.t15 t8452.t21))
% 32.29/32.55 (step t8452.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg2)
% 32.29/32.55 (step t8452.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8452.t22 t8452.t23))
% 32.29/32.55 (step t8452.t25 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t8452.t24))
% 32.29/32.55 (step t8452.t26 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule implies :premises (t8452.t25))
% 32.29/32.55 (step t8452.t27 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8452.t28 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule resolution :premises (t8452.t27 t8452.a1 t8452.a0))
% 32.29/32.55 (step t8452.t29 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t8452.t26 t8452.t28))
% 32.29/32.55 (step t8452.t30 (cl (and (not (= tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8452.t14 t8452.a3 t8452.a2 t8452.t29))
% 32.29/32.55 (step t8452.t31 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8452.t13 t8452.t30))
% 32.29/32.55 (step t8452 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule subproof :discharge (t8452.a0 t8452.a1 t8452.a2 t8452.a3))
% 32.29/32.55 (step t8453 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8454 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8455 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8456 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8457 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))))) :rule resolution :premises (t8452 t8453 t8454 t8455 t8456))
% 32.29/32.55 (step t8458 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule reordering :premises (t8457))
% 32.29/32.55 (step t8459 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t8458))
% 32.29/32.55 (step t8460 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8451 t8459))
% 32.29/32.55 (step t8461 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg2)
% 32.29/32.55 (step t8462 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8460 t8461))
% 32.29/32.55 (step t8463 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t8462))
% 32.29/32.55 (step t8464 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e14 tptp.unit1)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies :premises (t8463))
% 32.29/32.55 (step t8465 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8450 t8464))
% 32.29/32.55 (step t8466 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8467 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8468 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8469 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (not (= tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8470 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8471 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8465 t8466 t8467 t8468 t8469 t8470))
% 32.29/32.55 (step t8472 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e14 tptp.unit1))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t8471))
% 32.29/32.55 (step t8473 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8447 t8449 t8472))
% 32.29/32.55 (step t8474 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)))) :rule or :premises (t8473))
% 32.29/32.55 (step t8475 (cl (= tptp.e14 tptp.unit1) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule reordering :premises (t8474))
% 32.29/32.55 (step t8476 (cl (not (= (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))))) (not (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.55 (step t8477 (cl (= (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))))) :rule cong :premises (t1114 t7584 t8188 t4126))
% 32.29/32.55 (step t8478 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule and_neg)
% 32.29/32.55 (step t8479 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8480)
% 32.29/32.55 (assume t8480.a0 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (assume t8480.a1 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8480.a2 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (step t8480.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8480.t2)
% 32.29/32.55 (assume t8480.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (assume t8480.t2.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.55 (step t8480.t2.t1 (cl (= (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) false) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8480.t2.t2 (cl (not (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) false)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule equiv1 :premises (t8480.t2.t1))
% 32.29/32.55 (step t8480.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e14)) :rule symm :premises (t8480.t2.a1))
% 32.29/32.55 (step t8480.t2.t4 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule symm :premises (t8480.t2.t3))
% 32.29/32.55 (step t8480.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule refl)
% 32.29/32.55 (step t8480.t2.t6 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule cong :premises (t8480.t2.t4 t8480.t2.t5))
% 32.29/32.55 (step t8480.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8480.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv2 :premises (t8480.t2.t7))
% 32.29/32.55 (step t8480.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule not_not)
% 32.29/32.55 (step t8480.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8480.t2.t8 t8480.t2.t9))
% 32.29/32.55 (step t8480.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false)) :rule resolution :premises (t8480.t2.t10 t8480.t2.a0))
% 32.29/32.55 (step t8480.t2.t12 (cl (= (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) false)) :rule trans :premises (t8480.t2.t6 t8480.t2.t11))
% 32.29/32.55 (step t8480.t2.t13 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8480.t2.t2 t8480.t2.t12))
% 32.29/32.55 (step t8480.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t8480.t2.a0 t8480.t2.a1))
% 32.29/32.55 (step t8480.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8480.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8480.t5 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t8480.t2 t8480.t3 t8480.t4))
% 32.29/32.55 (step t8480.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t8480.t5))
% 32.29/32.55 (step t8480.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t8480.t6))
% 32.29/32.55 (step t8480.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8480.t1 t8480.t7))
% 32.29/32.55 (step t8480.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8480.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t8480.t8 t8480.t9))
% 32.29/32.55 (step t8480.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t8480.t10))
% 32.29/32.55 (step t8480.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t8480.t11))
% 32.29/32.55 (step t8480.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule and_neg)
% 32.29/32.55 (step t8480.t14 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8480.t15)
% 32.29/32.55 (assume t8480.t15.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8480.t15.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.55 (step t8480.t15.t1 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t8480.t15.a1))
% 32.29/32.55 (step t8480.t15.t2 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule symm :premises (t8480.t15.t1))
% 32.29/32.55 (step t8480.t15.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8480.t15.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8480.t15.a0))
% 32.29/32.55 (step t8480.t15.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8480.t15.t4))
% 32.29/32.55 (step t8480.t15.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8480.t15.t5))
% 32.29/32.55 (step t8480.t15.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) (tptp.op1 tptp.e14 tptp.e10))) :rule cong :premises (t8480.t15.t3 t8480.t15.t6))
% 32.29/32.55 (step t8480.t15.t8 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule trans :premises (t8480.t15.t2 t8480.t15.t7))
% 32.29/32.55 (step t8480.t15 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule subproof :discharge (t8480.t15.a0 t8480.t15.a1))
% 32.29/32.55 (step t8480.t16 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8480.t17 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8480.t18 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule resolution :premises (t8480.t15 t8480.t16 t8480.t17))
% 32.29/32.55 (step t8480.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule reordering :premises (t8480.t18))
% 32.29/32.55 (step t8480.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule contraction :premises (t8480.t19))
% 32.29/32.55 (step t8480.t21 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t8480.t14 t8480.t20))
% 32.29/32.55 (step t8480.t22 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8480.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8480.t21 t8480.t22))
% 32.29/32.55 (step t8480.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule contraction :premises (t8480.t23))
% 32.29/32.55 (step t8480.t25 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule implies :premises (t8480.t24))
% 32.29/32.55 (step t8480.t26 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8480.t27 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))) :rule resolution :premises (t8480.t26 t8480.a1 t8480.a0))
% 32.29/32.55 (step t8480.t28 (cl (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10))) :rule resolution :premises (t8480.t25 t8480.t27))
% 32.29/32.55 (step t8480.t29 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8480.t13 t8480.a2 t8480.t28))
% 32.29/32.55 (step t8480.t30 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8480.t12 t8480.t29))
% 32.29/32.55 (step t8480 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t8480.a0 t8480.a1 t8480.a2))
% 32.29/32.55 (step t8481 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8482 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8483 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8484 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule resolution :premises (t8480 t8481 t8482 t8483))
% 32.29/32.55 (step t8485 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t8484))
% 32.29/32.55 (step t8486 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t8485))
% 32.29/32.55 (step t8487 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8479 t8486))
% 32.29/32.55 (step t8488 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8489 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t8487 t8488))
% 32.29/32.55 (step t8490 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t8489))
% 32.29/32.55 (step t8491 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t8490))
% 32.29/32.55 (step t8492 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8478 t8491))
% 32.29/32.55 (step t8493 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8494 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8495 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule or_neg)
% 32.29/32.55 (step t8496 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule or_neg)
% 32.29/32.55 (step t8497 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t8492 t8493 t8494 t8495 t8496))
% 32.29/32.55 (step t8498 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t8497))
% 32.29/32.55 (step t8499 (cl (or (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t8476 t8477 t8498))
% 32.29/32.55 (step t8500 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)))) :rule or :premises (t8499))
% 32.29/32.55 (step t8501 (cl (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8500))
% 32.29/32.55 (step t8502 (cl (not (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e13 tptp.unit1) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))))) (not (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e13 tptp.unit1) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_pos2)
% 32.29/32.55 (step t8503 (cl (= (= (= (not (not (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1)) true) (= (not (not (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1)))) :rule equiv_simplify)
% 32.29/32.55 (step t8504 (cl (not (= (= (not (not (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1)) true)) (= (not (not (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1))) :rule equiv1 :premises (t8503))
% 32.29/32.55 (step t8505 (cl (= (= (not (not (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1)) (= (= tptp.e13 tptp.unit1) (not (not (= tptp.e13 tptp.unit1)))))) :rule all_simplify)
% 32.29/32.55 (step t8506 (cl (= (= tptp.e13 tptp.unit1) (= tptp.e13 tptp.unit1))) :rule refl)
% 32.29/32.55 (step t8507 (cl (= (not (not (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1))) :rule all_simplify)
% 32.29/32.55 (step t8508 (cl (= (= (= tptp.e13 tptp.unit1) (not (not (= tptp.e13 tptp.unit1)))) (= (= tptp.e13 tptp.unit1) (= tptp.e13 tptp.unit1)))) :rule cong :premises (t8506 t8507))
% 32.29/32.55 (step t8509 (cl (= (= (= tptp.e13 tptp.unit1) (= tptp.e13 tptp.unit1)) true)) :rule all_simplify)
% 32.29/32.55 (step t8510 (cl (= (= (= tptp.e13 tptp.unit1) (not (not (= tptp.e13 tptp.unit1)))) true)) :rule trans :premises (t8508 t8509))
% 32.29/32.55 (step t8511 (cl (= (= (not (not (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1)) true)) :rule trans :premises (t8505 t8510))
% 32.29/32.55 (step t8512 (cl (= (not (not (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1))) :rule resolution :premises (t8504 t8511))
% 32.29/32.55 (step t8513 (cl (= (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e13 tptp.unit1) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))))) :rule cong :premises (t1952 t1111 t7584 t8512 t4784))
% 32.29/32.55 (step t8514 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8515 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8516)
% 32.29/32.55 (assume t8516.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.55 (assume t8516.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8516.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8516.a3 (not (= tptp.e13 tptp.unit1)))
% 32.29/32.55 (step t8516.t1 (cl (=> (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8516.t2)
% 32.29/32.55 (assume t8516.t2.a0 (not (= tptp.e13 tptp.unit1)))
% 32.29/32.55 (assume t8516.t2.a1 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8516.t2.a2 (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))
% 32.29/32.55 (step t8516.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) false) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule equiv_simplify)
% 32.29/32.55 (step t8516.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) false)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule equiv1 :premises (t8516.t2.t1))
% 32.29/32.55 (step t8516.t2.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.55 (step t8516.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t8516.t2.a2))
% 32.29/32.55 (step t8516.t2.t5 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule symm :premises (t8516.t2.t4))
% 32.29/32.55 (step t8516.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule symm :premises (t8516.t2.t5))
% 32.29/32.55 (step t8516.t2.t7 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8516.t2.a1))
% 32.29/32.55 (step t8516.t2.t8 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8516.t2.t7))
% 32.29/32.55 (step t8516.t2.t9 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.unit1)) :rule trans :premises (t8516.t2.t6 t8516.t2.t8))
% 32.29/32.55 (step t8516.t2.t10 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 tptp.unit1))) :rule cong :premises (t8516.t2.t3 t8516.t2.t9))
% 32.29/32.55 (step t8516.t2.t11 (cl (= (= (= tptp.e13 tptp.unit1) false) (not (= tptp.e13 tptp.unit1)))) :rule equiv_simplify)
% 32.29/32.55 (step t8516.t2.t12 (cl (= (= tptp.e13 tptp.unit1) false) (not (not (= tptp.e13 tptp.unit1)))) :rule equiv2 :premises (t8516.t2.t11))
% 32.29/32.55 (step t8516.t2.t13 (cl (not (not (not (= tptp.e13 tptp.unit1)))) (= tptp.e13 tptp.unit1)) :rule not_not)
% 32.29/32.55 (step t8516.t2.t14 (cl (= (= tptp.e13 tptp.unit1) false) (= tptp.e13 tptp.unit1)) :rule resolution :premises (t8516.t2.t12 t8516.t2.t13))
% 32.29/32.55 (step t8516.t2.t15 (cl (= (= tptp.e13 tptp.unit1) false)) :rule resolution :premises (t8516.t2.t14 t8516.t2.a0))
% 32.29/32.55 (step t8516.t2.t16 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) false)) :rule trans :premises (t8516.t2.t10 t8516.t2.t15))
% 32.29/32.55 (step t8516.t2.t17 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8516.t2.t2 t8516.t2.t16))
% 32.29/32.55 (step t8516.t2 (cl (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule subproof :discharge (t8516.t2.a0 t8516.t2.a1 t8516.t2.a2))
% 32.29/32.55 (step t8516.t3 (cl (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8516.t4 (cl (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8516.t5 (cl (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8516.t6 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8516.t2 t8516.t3 t8516.t4 t8516.t5))
% 32.29/32.55 (step t8516.t7 (cl (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule reordering :premises (t8516.t6))
% 32.29/32.55 (step t8516.t8 (cl (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t8516.t7))
% 32.29/32.55 (step t8516.t9 (cl (=> (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8516.t1 t8516.t8))
% 32.29/32.55 (step t8516.t10 (cl (=> (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg2)
% 32.29/32.55 (step t8516.t11 (cl (=> (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (=> (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8516.t9 t8516.t10))
% 32.29/32.55 (step t8516.t12 (cl (=> (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t8516.t11))
% 32.29/32.55 (step t8516.t13 (cl (not (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies :premises (t8516.t12))
% 32.29/32.55 (step t8516.t14 (cl (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8516.t15 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8516.t16)
% 32.29/32.55 (assume t8516.t16.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.55 (assume t8516.t16.a1 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.55 (step t8516.t16.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t8516.t16.a1))
% 32.29/32.55 (step t8516.t16.t2 (cl (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule symm :premises (t8516.t16.t1))
% 32.29/32.55 (step t8516.t16.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8516.t16.a0))
% 32.29/32.55 (step t8516.t16.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8516.t16.t3))
% 32.29/32.55 (step t8516.t16.t5 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8516.t16.t4))
% 32.29/32.55 (step t8516.t16.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8516.t16.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) (tptp.op1 tptp.e11 tptp.e14))) :rule cong :premises (t8516.t16.t5 t8516.t16.t6))
% 32.29/32.55 (step t8516.t16.t8 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule trans :premises (t8516.t16.t2 t8516.t16.t7))
% 32.29/32.55 (step t8516.t16 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule subproof :discharge (t8516.t16.a0 t8516.t16.a1))
% 32.29/32.55 (step t8516.t17 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8516.t18 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8516.t19 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule resolution :premises (t8516.t16 t8516.t17 t8516.t18))
% 32.29/32.55 (step t8516.t20 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule reordering :premises (t8516.t19))
% 32.29/32.55 (step t8516.t21 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule contraction :premises (t8516.t20))
% 32.29/32.55 (step t8516.t22 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t8516.t15 t8516.t21))
% 32.29/32.55 (step t8516.t23 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies_neg2)
% 32.29/32.55 (step t8516.t24 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8516.t22 t8516.t23))
% 32.29/32.55 (step t8516.t25 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t8516.t24))
% 32.29/32.55 (step t8516.t26 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule implies :premises (t8516.t25))
% 32.29/32.55 (step t8516.t27 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8516.t28 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule resolution :premises (t8516.t27 t8516.a1 t8516.a0))
% 32.29/32.55 (step t8516.t29 (cl (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t8516.t26 t8516.t28))
% 32.29/32.55 (step t8516.t30 (cl (and (not (= tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8516.t14 t8516.a3 t8516.a2 t8516.t29))
% 32.29/32.55 (step t8516.t31 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8516.t13 t8516.t30))
% 32.29/32.55 (step t8516 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule subproof :discharge (t8516.a0 t8516.a1 t8516.a2 t8516.a3))
% 32.29/32.55 (step t8517 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8518 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8519 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8520 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (= tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8521 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1))))) :rule resolution :premises (t8516 t8517 t8518 t8519 t8520))
% 32.29/32.55 (step t8522 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule reordering :premises (t8521))
% 32.29/32.55 (step t8523 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule contraction :premises (t8522))
% 32.29/32.55 (step t8524 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8515 t8523))
% 32.29/32.55 (step t8525 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule implies_neg2)
% 32.29/32.55 (step t8526 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8524 t8525))
% 32.29/32.55 (step t8527 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t8526))
% 32.29/32.55 (step t8528 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 tptp.unit1) (not (= tptp.e13 tptp.unit1)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule implies :premises (t8527))
% 32.29/32.55 (step t8529 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule resolution :premises (t8514 t8528))
% 32.29/32.55 (step t8530 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8531 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8532 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8533 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (not (= tptp.e13 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8534 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule or_neg)
% 32.29/32.55 (step t8535 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8529 t8530 t8531 t8532 t8533 t8534))
% 32.29/32.55 (step t8536 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (not (= tptp.e13 tptp.unit1))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule contraction :premises (t8535))
% 32.29/32.55 (step t8537 (cl (or (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e13 tptp.unit1) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))))) :rule resolution :premises (t8502 t8513 t8536))
% 32.29/32.55 (step t8538 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (= tptp.e13 tptp.unit1) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)))) :rule or :premises (t8537))
% 32.29/32.55 (step t8539 (cl (= tptp.e13 tptp.unit1) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))) :rule reordering :premises (t8538))
% 32.29/32.55 (step t8540 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1)) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e13 tptp.unit1))) :rule and_neg)
% 32.29/32.55 (step t8541 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1)) (= tptp.e12 tptp.e14)) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8542)
% 32.29/32.55 (assume t8542.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.55 (assume t8542.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t8542.a2 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.55 (assume t8542.a3 (= tptp.e13 tptp.unit1))
% 32.29/32.55 (step t8542.t1 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 tptp.e14)) (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8542.t2)
% 32.29/32.55 (assume t8542.t2.a0 (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)))
% 32.29/32.55 (assume t8542.t2.a1 (= tptp.e13 tptp.unit1))
% 32.29/32.55 (assume t8542.t2.a2 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.55 (assume t8542.t2.a3 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.55 (step t8542.t2.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t8542.t2.a3))
% 32.29/32.55 (step t8542.t2.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t8542.t2.t1))
% 32.29/32.55 (step t8542.t2.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t8542.t2.a2))
% 32.29/32.55 (step t8542.t2.t4 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.55 (step t8542.t2.t5 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t8542.t2.t3 t8542.t2.t4))
% 32.29/32.55 (step t8542.t2.t6 (cl (= tptp.unit1 tptp.e13)) :rule symm :premises (t8542.t2.a1))
% 32.29/32.55 (step t8542.t2.t7 (cl (= tptp.e13 tptp.unit1)) :rule symm :premises (t8542.t2.t6))
% 32.29/32.55 (step t8542.t2.t8 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.unit1 tptp.e14))) :rule cong :premises (t8542.t2.t7 t8542.t2.t4))
% 32.29/32.55 (step t8542.t2.t9 (cl (= (tptp.op1 tptp.unit1 tptp.e14) tptp.e14)) :rule symm :premises (t8542.t2.a0))
% 32.29/32.55 (step t8542.t2.t10 (cl (= tptp.e12 tptp.e14)) :rule trans :premises (t8542.t2.t2 t8542.t2.t5 t8542.t2.t8 t8542.t2.t9))
% 32.29/32.55 (step t8542.t2 (cl (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e13 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 tptp.e14)) :rule subproof :discharge (t8542.t2.a0 t8542.t2.a1 t8542.t2.a2 t8542.t2.a3))
% 32.29/32.55 (step t8542.t3 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8542.t4 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8542.t5 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t8542.t6 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8542.t7 (cl (= tptp.e12 tptp.e14) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t8542.t2 t8542.t3 t8542.t4 t8542.t5 t8542.t6))
% 32.29/32.55 (step t8542.t8 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 tptp.e14)) :rule reordering :premises (t8542.t7))
% 32.29/32.55 (step t8542.t9 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 tptp.e14)) :rule contraction :premises (t8542.t8))
% 32.29/32.55 (step t8542.t10 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 tptp.e14)) (= tptp.e12 tptp.e14)) :rule resolution :premises (t8542.t1 t8542.t9))
% 32.29/32.55 (step t8542.t11 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 tptp.e14)) (not (= tptp.e12 tptp.e14))) :rule implies_neg2)
% 32.29/32.55 (step t8542.t12 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 tptp.e14)) (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 tptp.e14))) :rule resolution :premises (t8542.t10 t8542.t11))
% 32.29/32.55 (step t8542.t13 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 tptp.e14))) :rule contraction :premises (t8542.t12))
% 32.29/32.55 (step t8542.t14 (cl (not (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 tptp.e14)) :rule implies :premises (t8542.t13))
% 32.29/32.55 (step t8542.t15 (cl (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e13 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.29/32.55 (step t8542.t16 (cl (and (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t8542.t15 t8542.a2 t8542.a3 t8542.a1 t8542.a0))
% 32.29/32.55 (step t8542.t17 (cl (= tptp.e12 tptp.e14)) :rule resolution :premises (t8542.t14 t8542.t16))
% 32.29/32.55 (step t8542 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e13 tptp.unit1)) (= tptp.e12 tptp.e14)) :rule subproof :discharge (t8542.a0 t8542.a1 t8542.a2 t8542.a3))
% 32.29/32.55 (step t8543 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8544 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.55 (step t8545 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) :rule and_pos)
% 32.29/32.55 (step t8546 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (= tptp.e13 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8547 (cl (= tptp.e12 tptp.e14) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1)))) :rule resolution :premises (t8542 t8543 t8544 t8545 t8546))
% 32.29/32.55 (step t8548 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (= tptp.e12 tptp.e14)) :rule reordering :premises (t8547))
% 32.29/32.55 (step t8549 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (= tptp.e12 tptp.e14)) :rule contraction :premises (t8548))
% 32.29/32.55 (step t8550 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1)) (= tptp.e12 tptp.e14)) (= tptp.e12 tptp.e14)) :rule resolution :premises (t8541 t8549))
% 32.29/32.55 (step t8551 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1)) (= tptp.e12 tptp.e14)) (not (= tptp.e12 tptp.e14))) :rule implies_neg2)
% 32.29/32.55 (step t8552 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1)) (= tptp.e12 tptp.e14)) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1)) (= tptp.e12 tptp.e14))) :rule resolution :premises (t8550 t8551))
% 32.29/32.55 (step t8553 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1)) (= tptp.e12 tptp.e14))) :rule contraction :premises (t8552))
% 32.29/32.55 (step t8554 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14)) (= tptp.e13 tptp.unit1))) (= tptp.e12 tptp.e14)) :rule implies :premises (t8553))
% 32.29/32.55 (step t8555 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e13 tptp.unit1)) (= tptp.e12 tptp.e14)) :rule resolution :premises (t8540 t8554))
% 32.29/32.55 (step t8556 (cl (= tptp.e12 tptp.e14) (not (= tptp.e14 (tptp.op1 tptp.unit1 tptp.e14))) (not (= tptp.e13 tptp.unit1)) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t8555))
% 32.29/32.55 (step t8557 (cl (not (= tptp.e13 tptp.unit1))) :rule resolution :premises (t8556 t799 t798 t3733 t2193))
% 32.29/32.55 (step t8558 (cl (not (= (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))))) (not (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_pos2)
% 32.29/32.55 (step t8559 (cl (= (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))))) :rule cong :premises (t7807 t7584 t8257 t4090))
% 32.29/32.55 (step t8560 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule and_neg)
% 32.29/32.55 (step t8561 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8562)
% 32.29/32.55 (assume t8562.a0 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (assume t8562.a1 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8562.a2 (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (step t8562.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8562.t2)
% 32.29/32.55 (assume t8562.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))
% 32.29/32.55 (assume t8562.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))
% 32.29/32.55 (step t8562.t2.t1 (cl (= (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) false) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8562.t2.t2 (cl (not (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) false)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule equiv1 :premises (t8562.t2.t1))
% 32.29/32.55 (step t8562.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e10) tptp.e13)) :rule symm :premises (t8562.t2.a1))
% 32.29/32.55 (step t8562.t2.t4 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule symm :premises (t8562.t2.t3))
% 32.29/32.55 (step t8562.t2.t5 (cl (= (tptp.op1 tptp.e11 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule refl)
% 32.29/32.55 (step t8562.t2.t6 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule cong :premises (t8562.t2.t4 t8562.t2.t5))
% 32.29/32.55 (step t8562.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.55 (step t8562.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) :rule equiv2 :premises (t8562.t2.t7))
% 32.29/32.55 (step t8562.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule not_not)
% 32.29/32.55 (step t8562.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) :rule resolution :premises (t8562.t2.t8 t8562.t2.t9))
% 32.29/32.55 (step t8562.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) false)) :rule resolution :premises (t8562.t2.t10 t8562.t2.a0))
% 32.29/32.55 (step t8562.t2.t12 (cl (= (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) false)) :rule trans :premises (t8562.t2.t6 t8562.t2.t11))
% 32.29/32.55 (step t8562.t2.t13 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8562.t2.t2 t8562.t2.t12))
% 32.29/32.55 (step t8562.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t8562.t2.a0 t8562.t2.a1))
% 32.29/32.55 (step t8562.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8562.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule and_pos)
% 32.29/32.55 (step t8562.t5 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) :rule resolution :premises (t8562.t2 t8562.t3 t8562.t4))
% 32.29/32.55 (step t8562.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t8562.t5))
% 32.29/32.55 (step t8562.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t8562.t6))
% 32.29/32.55 (step t8562.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8562.t1 t8562.t7))
% 32.29/32.55 (step t8562.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8562.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t8562.t8 t8562.t9))
% 32.29/32.55 (step t8562.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t8562.t10))
% 32.29/32.55 (step t8562.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t8562.t11))
% 32.29/32.55 (step t8562.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_neg)
% 32.29/32.55 (step t8562.t14 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8562.t15)
% 32.29/32.55 (assume t8562.t15.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.55 (assume t8562.t15.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.55 (step t8562.t15.t1 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t8562.t15.a1))
% 32.29/32.55 (step t8562.t15.t2 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule symm :premises (t8562.t15.t1))
% 32.29/32.55 (step t8562.t15.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.55 (step t8562.t15.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8562.t15.a0))
% 32.29/32.55 (step t8562.t15.t5 (cl (= (tptp.op1 tptp.e13 tptp.unit1) (tptp.op1 tptp.e13 tptp.e10))) :rule cong :premises (t8562.t15.t3 t8562.t15.t4))
% 32.29/32.55 (step t8562.t15.t6 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t8562.t15.t2 t8562.t15.t5))
% 32.29/32.55 (step t8562.t15 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t8562.t15.a0 t8562.t15.a1))
% 32.29/32.55 (step t8562.t16 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8562.t17 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8562.t18 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule resolution :premises (t8562.t15 t8562.t16 t8562.t17))
% 32.29/32.55 (step t8562.t19 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t8562.t18))
% 32.29/32.55 (step t8562.t20 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t8562.t19))
% 32.29/32.55 (step t8562.t21 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8562.t14 t8562.t20))
% 32.29/32.55 (step t8562.t22 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.55 (step t8562.t23 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8562.t21 t8562.t22))
% 32.29/32.55 (step t8562.t24 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t8562.t23))
% 32.29/32.55 (step t8562.t25 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t8562.t24))
% 32.29/32.55 (step t8562.t26 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule and_neg)
% 32.29/32.55 (step t8562.t27 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule resolution :premises (t8562.t26 t8562.a1 t8562.a0))
% 32.29/32.55 (step t8562.t28 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8562.t25 t8562.t27))
% 32.29/32.55 (step t8562.t29 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8562.t13 t8562.a2 t8562.t28))
% 32.29/32.55 (step t8562.t30 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8562.t12 t8562.t29))
% 32.29/32.55 (step t8562 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule subproof :discharge (t8562.a0 t8562.a1 t8562.a2))
% 32.29/32.55 (step t8563 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.55 (step t8564 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.55 (step t8565 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) :rule and_pos)
% 32.29/32.55 (step t8566 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule resolution :premises (t8562 t8563 t8564 t8565))
% 32.29/32.55 (step t8567 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule reordering :premises (t8566))
% 32.29/32.55 (step t8568 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule contraction :premises (t8567))
% 32.29/32.55 (step t8569 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8561 t8568))
% 32.29/32.55 (step t8570 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule implies_neg2)
% 32.29/32.55 (step t8571 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t8569 t8570))
% 32.29/32.55 (step t8572 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t8571))
% 32.29/32.55 (step t8573 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule implies :premises (t8572))
% 32.29/32.55 (step t8574 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule resolution :premises (t8560 t8573))
% 32.29/32.55 (step t8575 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule or_neg)
% 32.29/32.55 (step t8576 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.55 (step t8577 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))))) :rule or_neg)
% 32.29/32.55 (step t8578 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule or_neg)
% 32.29/32.55 (step t8579 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t8574 t8575 t8576 t8577 t8578))
% 32.29/32.55 (step t8580 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule contraction :premises (t8579))
% 32.29/32.55 (step t8581 (cl (or (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))))) :rule resolution :premises (t8558 t8559 t8580))
% 32.29/32.55 (step t8582 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)))) :rule or :premises (t8581))
% 32.29/32.55 (step t8583 (cl (= (tptp.op1 tptp.e13 tptp.e10) (tptp.op1 tptp.e11 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8582))
% 32.29/32.55 (step t8584 (cl (not (= (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv_pos2)
% 32.29/32.55 (step t8585 (cl (= (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))))) :rule refl)
% 32.29/32.55 (step t8586 (cl (= (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule cong :premises (t4984 t8585 t7584 t1964))
% 32.29/32.55 (step t8587 (cl (not (= (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) (not (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule equiv_pos2)
% 32.29/32.55 (step t8588 (cl (= (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule refl)
% 32.29/32.55 (step t8589 (cl (= (= (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) :rule equiv_simplify)
% 32.29/32.55 (step t8590 (cl (= (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) (not (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) :rule equiv2 :premises (t8589))
% 32.29/32.55 (step t8591 (cl (not (not (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule not_not)
% 32.29/32.55 (step t8592 (cl (= (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t8590 t8591))
% 32.29/32.55 (step t8593 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg1)
% 32.29/32.55 (anchor :step t8594)
% 32.29/32.55 (assume t8594.a0 (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))
% 32.29/32.55 (assume t8594.a1 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.55 (assume t8594.a2 (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)))
% 32.29/32.55 (assume t8594.a3 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.29/32.55 (step t8594.t1 (cl (not (= (= false true) false)) (not (= false true)) false) :rule equiv_pos2)
% 32.29/32.55 (step t8594.t2 (cl (= (= false true) false)) :rule all_simplify)
% 32.29/32.55 (step t8594.t3 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t8594.t4 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule equiv2 :premises (t8594.t3))
% 32.29/32.56 (step t8594.t5 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule not_not)
% 32.29/32.56 (step t8594.t6 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t8594.t4 t8594.t5))
% 32.29/32.56 (step t8594.t7 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) false)) :rule resolution :premises (t8594.t6 t8594.a3))
% 32.29/32.56 (step t8594.t8 (cl (= false (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule symm :premises (t8594.t7))
% 32.29/32.56 (step t8594.t9 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) true) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv_simplify)
% 32.29/32.56 (step t8594.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) true) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule equiv2 :premises (t8594.t9))
% 32.29/32.56 (step t8594.t11 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e12)) :rule symm :premises (t8594.a1))
% 32.29/32.56 (step t8594.t12 (cl (= (tptp.op1 tptp.unit1 tptp.e12) tptp.e12)) :rule symm :premises (t8594.a0))
% 32.29/32.56 (step t8594.t13 (cl (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule symm :premises (t8594.t12))
% 32.29/32.56 (step t8594.t14 (cl (= (tptp.op1 tptp.e10 tptp.e12) tptp.e12)) :rule symm :premises (t8594.a2))
% 32.29/32.56 (step t8594.t15 (cl (= (tptp.op1 tptp.e10 tptp.e12) (tptp.op1 tptp.unit1 tptp.e12))) :rule trans :premises (t8594.t14 t8594.t13))
% 32.29/32.56 (step t8594.t16 (cl (= (tptp.op1 tptp.unit1 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule symm :premises (t8594.t15))
% 32.29/32.56 (step t8594.t17 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule trans :premises (t8594.t11 t8594.t13 t8594.t16))
% 32.29/32.56 (step t8594.t18 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) true)) :rule resolution :premises (t8594.t10 t8594.t17))
% 32.29/32.56 (step t8594.t19 (cl (= false true)) :rule trans :premises (t8594.t8 t8594.t18))
% 32.29/32.56 (step t8594.t20 (cl false) :rule resolution :premises (t8594.t1 t8594.t2 t8594.t19))
% 32.29/32.56 (step t8594 (cl (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) :rule subproof :discharge (t8594.a0 t8594.a1 t8594.a2 t8594.a3))
% 32.29/32.56 (step t8595 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8596 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8597 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8598 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.29/32.56 (step t8599 (cl false (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t8594 t8595 t8596 t8597 t8598))
% 32.29/32.56 (step t8600 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) false) :rule reordering :premises (t8599))
% 32.29/32.56 (step t8601 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) false) :rule contraction :premises (t8600))
% 32.29/32.56 (step t8602 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) false) :rule resolution :premises (t8593 t8601))
% 32.29/32.56 (step t8603 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) (not false)) :rule implies_neg2)
% 32.29/32.56 (step t8604 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false)) :rule resolution :premises (t8602 t8603))
% 32.29/32.56 (step t8605 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false)) :rule contraction :premises (t8604))
% 32.29/32.56 (step t8606 (cl (= (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) :rule implies_simplify)
% 32.29/32.56 (step t8607 (cl (not (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false)) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule equiv1 :premises (t8606))
% 32.29/32.56 (step t8608 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t8605 t8607))
% 32.29/32.56 (step t8609 (cl (= (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false)) :rule resolution :premises (t8592 t8608))
% 32.29/32.56 (step t8610 (cl (= (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false))) :rule cong :premises (t8588 t8609))
% 32.29/32.56 (step t8611 (cl (= (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) false) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) :rule all_simplify)
% 32.29/32.56 (step t8612 (cl (= (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))))) :rule trans :premises (t8610 t8611))
% 32.29/32.56 (step t8613 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8614)
% 32.29/32.56 (assume t8614.a0 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.56 (assume t8614.a1 (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))
% 32.29/32.56 (assume t8614.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (assume t8614.a3 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))
% 32.29/32.56 (step t8614.t1 (cl (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule and_neg)
% 32.29/32.56 (step t8614.t2 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8614.t3)
% 32.29/32.56 (assume t8614.t3.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (assume t8614.t3.a1 (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))
% 32.29/32.56 (step t8614.t3.t1 (cl (= (tptp.op1 tptp.unit1 tptp.e12) tptp.e12)) :rule symm :premises (t8614.t3.a1))
% 32.29/32.56 (step t8614.t3.t2 (cl (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule symm :premises (t8614.t3.t1))
% 32.29/32.56 (step t8614.t3.t3 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8614.t3.a0))
% 32.29/32.56 (step t8614.t3.t4 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8614.t3.t3))
% 32.29/32.56 (step t8614.t3.t5 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8614.t3.t4))
% 32.29/32.56 (step t8614.t3.t6 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.56 (step t8614.t3.t7 (cl (= (tptp.op1 tptp.unit1 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule cong :premises (t8614.t3.t5 t8614.t3.t6))
% 32.29/32.56 (step t8614.t3.t8 (cl (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) :rule trans :premises (t8614.t3.t2 t8614.t3.t7))
% 32.29/32.56 (step t8614.t3 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) :rule subproof :discharge (t8614.t3.a0 t8614.t3.a1))
% 32.29/32.56 (step t8614.t4 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8614.t5 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8614.t6 (cl (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))))) :rule resolution :premises (t8614.t3 t8614.t4 t8614.t5))
% 32.29/32.56 (step t8614.t7 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) :rule reordering :premises (t8614.t6))
% 32.29/32.56 (step t8614.t8 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) :rule contraction :premises (t8614.t7))
% 32.29/32.56 (step t8614.t9 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t8614.t2 t8614.t8))
% 32.29/32.56 (step t8614.t10 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)))) :rule implies_neg2)
% 32.29/32.56 (step t8614.t11 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t8614.t9 t8614.t10))
% 32.29/32.56 (step t8614.t12 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)))) :rule contraction :premises (t8614.t11))
% 32.29/32.56 (step t8614.t13 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) :rule implies :premises (t8614.t12))
% 32.29/32.56 (step t8614.t14 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) :rule and_neg)
% 32.29/32.56 (step t8614.t15 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))) :rule resolution :premises (t8614.t14 t8614.a2 t8614.a1))
% 32.29/32.56 (step t8614.t16 (cl (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12))) :rule resolution :premises (t8614.t13 t8614.t15))
% 32.29/32.56 (step t8614.t17 (cl (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t8614.t1 t8614.a1 t8614.a0 t8614.t16 t8614.a3))
% 32.29/32.56 (step t8614 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule subproof :discharge (t8614.a0 t8614.a1 t8614.a2 t8614.a3))
% 32.29/32.56 (step t8615 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8616 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8617 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8618 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule and_pos)
% 32.29/32.56 (step t8619 (cl (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t8614 t8615 t8616 t8617 t8618))
% 32.29/32.56 (step t8620 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule reordering :premises (t8619))
% 32.29/32.56 (step t8621 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule contraction :premises (t8620))
% 32.29/32.56 (step t8622 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule resolution :premises (t8613 t8621))
% 32.29/32.56 (step t8623 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule implies_neg2)
% 32.29/32.56 (step t8624 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t8622 t8623))
% 32.29/32.56 (step t8625 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule contraction :premises (t8624))
% 32.29/32.56 (step t8626 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t8587 t8612 t8625))
% 32.29/32.56 (step t8627 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) :rule not_and :premises (t8626))
% 32.29/32.56 (step t8628 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))))) :rule or_neg)
% 32.29/32.56 (step t8629 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))))) :rule or_neg)
% 32.29/32.56 (step t8630 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.56 (step t8631 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule or_neg)
% 32.29/32.56 (step t8632 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))))) (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule resolution :premises (t8627 t8628 t8629 t8630 t8631))
% 32.29/32.56 (step t8633 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))))) :rule contraction :premises (t8632))
% 32.29/32.56 (step t8634 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)))) :rule resolution :premises (t8584 t8586 t8633))
% 32.29/32.56 (step t8635 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12))) :rule or :premises (t8634))
% 32.29/32.56 (step t8636 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e10 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8635))
% 32.29/32.56 (step t8637 (cl (not (= (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule equiv_pos2)
% 32.29/32.56 (step t8638 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))))) :rule refl)
% 32.29/32.56 (step t8639 (cl (= (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule cong :premises (t8638 t8585 t4929 t7584 t2679))
% 32.29/32.56 (step t8640 (cl (not (= (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))))) (not (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule equiv_pos2)
% 32.29/32.56 (step t8641 (cl (= (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule refl)
% 32.29/32.56 (step t8642 (cl (= (= (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))))) :rule equiv_simplify)
% 32.29/32.56 (step t8643 (cl (= (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) (not (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))))) :rule equiv2 :premises (t8642))
% 32.29/32.56 (step t8644 (cl (not (not (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule not_not)
% 32.29/32.56 (step t8645 (cl (= (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t8643 t8644))
% 32.29/32.56 (step t8646 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8647)
% 32.29/32.56 (assume t8647.a0 (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))
% 32.29/32.56 (assume t8647.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))
% 32.29/32.56 (assume t8647.a2 (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))
% 32.29/32.56 (assume t8647.a3 (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))
% 32.29/32.56 (step t8647.t1 (cl (not (= (= false true) false)) (not (= false true)) false) :rule equiv_pos2)
% 32.29/32.56 (step t8647.t2 (cl (= (= false true) false)) :rule all_simplify)
% 32.29/32.56 (step t8647.t3 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) false) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv_simplify)
% 32.29/32.56 (step t8647.t4 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) false) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule equiv2 :premises (t8647.t3))
% 32.29/32.56 (step t8647.t5 (cl (not (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) :rule not_not)
% 32.29/32.56 (step t8647.t6 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) false) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t8647.t4 t8647.t5))
% 32.29/32.56 (step t8647.t7 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) false)) :rule resolution :premises (t8647.t6 t8647.a3))
% 32.29/32.56 (step t8647.t8 (cl (= false (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule symm :premises (t8647.t7))
% 32.29/32.56 (step t8647.t9 (cl (= (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) true) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule equiv_simplify)
% 32.29/32.56 (step t8647.t10 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) true) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule equiv2 :premises (t8647.t9))
% 32.29/32.56 (step t8647.t11 (cl (= (tptp.op1 tptp.e12 tptp.e11) tptp.e12)) :rule symm :premises (t8647.a1))
% 32.29/32.56 (step t8647.t12 (cl (= (tptp.op1 tptp.unit1 tptp.e12) tptp.e12)) :rule symm :premises (t8647.a0))
% 32.29/32.56 (step t8647.t13 (cl (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule symm :premises (t8647.t12))
% 32.29/32.56 (step t8647.t14 (cl (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12)) :rule symm :premises (t8647.a2))
% 32.29/32.56 (step t8647.t15 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.unit1 tptp.e12))) :rule trans :premises (t8647.t14 t8647.t13))
% 32.29/32.56 (step t8647.t16 (cl (= (tptp.op1 tptp.unit1 tptp.e12) (tptp.op1 tptp.e12 tptp.e10))) :rule symm :premises (t8647.t15))
% 32.29/32.56 (step t8647.t17 (cl (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) :rule trans :premises (t8647.t11 t8647.t13 t8647.t16))
% 32.29/32.56 (step t8647.t18 (cl (= (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) true)) :rule resolution :premises (t8647.t10 t8647.t17))
% 32.29/32.56 (step t8647.t19 (cl (= false true)) :rule trans :premises (t8647.t8 t8647.t18))
% 32.29/32.56 (step t8647.t20 (cl false) :rule resolution :premises (t8647.t1 t8647.t2 t8647.t19))
% 32.29/32.56 (step t8647 (cl (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) :rule subproof :discharge (t8647.a0 t8647.a1 t8647.a2 t8647.a3))
% 32.29/32.56 (step t8648 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8649 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8650 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule and_pos)
% 32.29/32.56 (step t8651 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule and_pos)
% 32.29/32.56 (step t8652 (cl false (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule resolution :premises (t8647 t8648 t8649 t8650 t8651))
% 32.29/32.56 (step t8653 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) false) :rule reordering :premises (t8652))
% 32.29/32.56 (step t8654 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) false) :rule contraction :premises (t8653))
% 32.29/32.56 (step t8655 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) false) :rule resolution :premises (t8646 t8654))
% 32.29/32.56 (step t8656 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) (not false)) :rule implies_neg2)
% 32.29/32.56 (step t8657 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false)) :rule resolution :premises (t8655 t8656))
% 32.29/32.56 (step t8658 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false)) :rule contraction :premises (t8657))
% 32.29/32.56 (step t8659 (cl (= (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))))) :rule implies_simplify)
% 32.29/32.56 (step t8660 (cl (not (=> (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false)) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule equiv1 :premises (t8659))
% 32.29/32.56 (step t8661 (cl (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule resolution :premises (t8658 t8660))
% 32.29/32.56 (step t8662 (cl (= (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false)) :rule resolution :premises (t8645 t8661))
% 32.29/32.56 (step t8663 (cl (= (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false))) :rule cong :premises (t8641 t8662))
% 32.29/32.56 (step t8664 (cl (= (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) false) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))))) :rule all_simplify)
% 32.29/32.56 (step t8665 (cl (= (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))))) :rule trans :premises (t8663 t8664))
% 32.29/32.56 (step t8666 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8667)
% 32.29/32.56 (assume t8667.a0 (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))
% 32.29/32.56 (assume t8667.a1 (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)))
% 32.29/32.56 (assume t8667.a2 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.56 (assume t8667.a3 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (assume t8667.a4 (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))
% 32.29/32.56 (step t8667.t1 (cl (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule and_neg)
% 32.29/32.56 (step t8667.t2 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8667.t3)
% 32.29/32.56 (assume t8667.t3.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (assume t8667.t3.a1 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.29/32.56 (step t8667.t3.t1 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t8667.t3.a1))
% 32.29/32.56 (step t8667.t3.t2 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule symm :premises (t8667.t3.t1))
% 32.29/32.56 (step t8667.t3.t3 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.29/32.56 (step t8667.t3.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8667.t3.a0))
% 32.29/32.56 (step t8667.t3.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8667.t3.t4))
% 32.29/32.56 (step t8667.t3.t6 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8667.t3.t5))
% 32.29/32.56 (step t8667.t3.t7 (cl (= (tptp.op1 tptp.e12 tptp.unit1) (tptp.op1 tptp.e12 tptp.e10))) :rule cong :premises (t8667.t3.t3 t8667.t3.t6))
% 32.29/32.56 (step t8667.t3.t8 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule trans :premises (t8667.t3.t2 t8667.t3.t7))
% 32.29/32.56 (step t8667.t3 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule subproof :discharge (t8667.t3.a0 t8667.t3.a1))
% 32.29/32.56 (step t8667.t4 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8667.t5 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.56 (step t8667.t6 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule resolution :premises (t8667.t3 t8667.t4 t8667.t5))
% 32.29/32.56 (step t8667.t7 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule reordering :premises (t8667.t6))
% 32.29/32.56 (step t8667.t8 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule contraction :premises (t8667.t7))
% 32.29/32.56 (step t8667.t9 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t8667.t2 t8667.t8))
% 32.29/32.56 (step t8667.t10 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule implies_neg2)
% 32.29/32.56 (step t8667.t11 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8667.t9 t8667.t10))
% 32.29/32.56 (step t8667.t12 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) :rule contraction :premises (t8667.t11))
% 32.29/32.56 (step t8667.t13 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule implies :premises (t8667.t12))
% 32.29/32.56 (step t8667.t14 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule and_neg)
% 32.29/32.56 (step t8667.t15 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))) :rule resolution :premises (t8667.t14 t8667.a3 t8667.a2))
% 32.29/32.56 (step t8667.t16 (cl (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10))) :rule resolution :premises (t8667.t13 t8667.t15))
% 32.29/32.56 (step t8667.t17 (cl (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t8667.t1 t8667.a1 t8667.a0 t8667.t16 t8667.a4))
% 32.29/32.56 (step t8667 (cl (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule subproof :discharge (t8667.a0 t8667.a1 t8667.a2 t8667.a3 t8667.a4))
% 32.29/32.56 (step t8668 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8669 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8670 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.29/32.56 (step t8671 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8672 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule and_pos)
% 32.29/32.56 (step t8673 (cl (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule resolution :premises (t8667 t8668 t8669 t8670 t8671 t8672))
% 32.29/32.56 (step t8674 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule reordering :premises (t8673))
% 32.29/32.56 (step t8675 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule contraction :premises (t8674))
% 32.29/32.56 (step t8676 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule resolution :premises (t8666 t8675))
% 32.29/32.56 (step t8677 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule implies_neg2)
% 32.29/32.56 (step t8678 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule resolution :premises (t8676 t8677))
% 32.29/32.56 (step t8679 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule contraction :premises (t8678))
% 32.29/32.56 (step t8680 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule resolution :premises (t8640 t8665 t8679))
% 32.29/32.56 (step t8681 (cl (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) :rule not_and :premises (t8680))
% 32.29/32.56 (step t8682 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))))) :rule or_neg)
% 32.29/32.56 (step t8683 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))))) :rule or_neg)
% 32.29/32.56 (step t8684 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))))) :rule or_neg)
% 32.29/32.56 (step t8685 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (not (= tptp.e10 tptp.unit1)))) :rule or_neg)
% 32.29/32.56 (step t8686 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (not (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule or_neg)
% 32.29/32.56 (step t8687 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))))) (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule resolution :premises (t8681 t8682 t8683 t8684 t8685 t8686))
% 32.29/32.56 (step t8688 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (not (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))))) :rule contraction :premises (t8687))
% 32.29/32.56 (step t8689 (cl (or (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)))) :rule resolution :premises (t8637 t8639 t8688))
% 32.29/32.56 (step t8690 (cl (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10))) :rule or :premises (t8689))
% 32.29/32.56 (step t8691 (cl (= (tptp.op1 tptp.e12 tptp.e11) (tptp.op1 tptp.e12 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.unit1 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8690))
% 32.29/32.56 (step t8692 (cl (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.56 (step t8693 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8694)
% 32.29/32.56 (assume t8694.a0 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.56 (assume t8694.a1 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.56 (assume t8694.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (step t8694.t1 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8694.t2)
% 32.29/32.56 (assume t8694.t2.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (assume t8694.t2.a1 (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)))
% 32.29/32.56 (assume t8694.t2.a2 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))
% 32.29/32.56 (step t8694.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e13) tptp.e13)) :rule symm :premises (t8694.t2.a2))
% 32.29/32.56 (step t8694.t2.t2 (cl (= (tptp.op1 tptp.unit1 tptp.e13) tptp.e13)) :rule symm :premises (t8694.t2.a1))
% 32.29/32.56 (step t8694.t2.t3 (cl (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule symm :premises (t8694.t2.t2))
% 32.29/32.56 (step t8694.t2.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8694.t2.a0))
% 32.29/32.56 (step t8694.t2.t5 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.56 (step t8694.t2.t6 (cl (= (tptp.op1 tptp.unit1 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule cong :premises (t8694.t2.t4 t8694.t2.t5))
% 32.29/32.56 (step t8694.t2.t7 (cl (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule trans :premises (t8694.t2.t1 t8694.t2.t3 t8694.t2.t6))
% 32.29/32.56 (step t8694.t2 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule subproof :discharge (t8694.t2.a0 t8694.t2.a1 t8694.t2.a2))
% 32.29/32.56 (step t8694.t3 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8694.t4 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8694.t5 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8694.t6 (cl (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))))) :rule resolution :premises (t8694.t2 t8694.t3 t8694.t4 t8694.t5))
% 32.29/32.56 (step t8694.t7 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule reordering :premises (t8694.t6))
% 32.29/32.56 (step t8694.t8 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule contraction :premises (t8694.t7))
% 32.29/32.56 (step t8694.t9 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule resolution :premises (t8694.t1 t8694.t8))
% 32.29/32.56 (step t8694.t10 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule implies_neg2)
% 32.29/32.56 (step t8694.t11 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule resolution :premises (t8694.t9 t8694.t10))
% 32.29/32.56 (step t8694.t12 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule contraction :premises (t8694.t11))
% 32.29/32.56 (step t8694.t13 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule implies :premises (t8694.t12))
% 32.29/32.56 (step t8694.t14 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8694.t15 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t8694.t14 t8694.a2 t8694.a1 t8694.a0))
% 32.29/32.56 (step t8694.t16 (cl (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule resolution :premises (t8694.t13 t8694.t15))
% 32.29/32.56 (step t8694 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule subproof :discharge (t8694.a0 t8694.a1 t8694.a2))
% 32.29/32.56 (step t8695 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8696 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8697 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8698 (cl (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t8694 t8695 t8696 t8697))
% 32.29/32.56 (step t8699 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule reordering :premises (t8698))
% 32.29/32.56 (step t8700 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule contraction :premises (t8699))
% 32.29/32.56 (step t8701 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule resolution :premises (t8693 t8700))
% 32.29/32.56 (step t8702 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule implies_neg2)
% 32.29/32.56 (step t8703 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule resolution :premises (t8701 t8702))
% 32.29/32.56 (step t8704 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule contraction :premises (t8703))
% 32.29/32.56 (step t8705 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13)) (= tptp.e10 tptp.unit1))) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule implies :premises (t8704))
% 32.29/32.56 (step t8706 (cl (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1)) (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13))) :rule resolution :premises (t8692 t8705))
% 32.29/32.56 (step t8707 (cl (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.unit1 tptp.e13))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8706))
% 32.29/32.56 (step t8708 (cl (not (= (tptp.op1 tptp.e11 tptp.e13) (tptp.op1 tptp.e10 tptp.e13)))) :rule and :premises (t1360))
% 32.29/32.56 (step t8709 (cl (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.56 (step t8710 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e12 tptp.e14)) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8711)
% 32.29/32.56 (assume t8711.a0 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.56 (assume t8711.a1 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.56 (assume t8711.a2 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (step t8711.t1 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e12 tptp.e14)) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8711.t2)
% 32.29/32.56 (assume t8711.t2.a0 (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)))
% 32.29/32.56 (assume t8711.t2.a1 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (assume t8711.t2.a2 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))
% 32.29/32.56 (step t8711.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e10) tptp.e12)) :rule symm :premises (t8711.t2.a2))
% 32.29/32.56 (step t8711.t2.t2 (cl (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) :rule symm :premises (t8711.t2.t1))
% 32.29/32.56 (step t8711.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.56 (step t8711.t2.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8711.t2.a1))
% 32.29/32.56 (step t8711.t2.t5 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t8711.t2.t4))
% 32.29/32.56 (step t8711.t2.t6 (cl (= (tptp.op1 tptp.e14 tptp.e10) (tptp.op1 tptp.e14 tptp.unit1))) :rule cong :premises (t8711.t2.t3 t8711.t2.t5))
% 32.29/32.56 (step t8711.t2.t7 (cl (= (tptp.op1 tptp.e14 tptp.unit1) tptp.e14)) :rule symm :premises (t8711.t2.a0))
% 32.29/32.56 (step t8711.t2.t8 (cl (= tptp.e12 tptp.e14)) :rule trans :premises (t8711.t2.t2 t8711.t2.t6 t8711.t2.t7))
% 32.29/32.56 (step t8711.t2 (cl (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e12 tptp.e14)) :rule subproof :discharge (t8711.t2.a0 t8711.t2.a1 t8711.t2.a2))
% 32.29/32.56 (step t8711.t3 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.56 (step t8711.t4 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8711.t5 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.56 (step t8711.t6 (cl (= tptp.e12 tptp.e14) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))))) :rule resolution :premises (t8711.t2 t8711.t3 t8711.t4 t8711.t5))
% 32.29/32.56 (step t8711.t7 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e12 tptp.e14)) :rule reordering :premises (t8711.t6))
% 32.29/32.56 (step t8711.t8 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e12 tptp.e14)) :rule contraction :premises (t8711.t7))
% 32.29/32.56 (step t8711.t9 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e12 tptp.e14)) (= tptp.e12 tptp.e14)) :rule resolution :premises (t8711.t1 t8711.t8))
% 32.29/32.56 (step t8711.t10 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e12 tptp.e14)) (not (= tptp.e12 tptp.e14))) :rule implies_neg2)
% 32.29/32.56 (step t8711.t11 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e12 tptp.e14)) (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e12 tptp.e14))) :rule resolution :premises (t8711.t9 t8711.t10))
% 32.29/32.56 (step t8711.t12 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (= tptp.e12 tptp.e14))) :rule contraction :premises (t8711.t11))
% 32.29/32.56 (step t8711.t13 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) (= tptp.e12 tptp.e14)) :rule implies :premises (t8711.t12))
% 32.29/32.56 (step t8711.t14 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule and_neg)
% 32.29/32.56 (step t8711.t15 (cl (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)))) :rule resolution :premises (t8711.t14 t8711.a1 t8711.a2 t8711.a0))
% 32.29/32.56 (step t8711.t16 (cl (= tptp.e12 tptp.e14)) :rule resolution :premises (t8711.t13 t8711.t15))
% 32.29/32.56 (step t8711 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= tptp.e12 tptp.e14)) :rule subproof :discharge (t8711.a0 t8711.a1 t8711.a2))
% 32.29/32.56 (step t8712 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) :rule and_pos)
% 32.29/32.56 (step t8713 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) :rule and_pos)
% 32.29/32.56 (step t8714 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8715 (cl (= tptp.e12 tptp.e14) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t8711 t8712 t8713 t8714))
% 32.29/32.56 (step t8716 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e12 tptp.e14)) :rule reordering :premises (t8715))
% 32.29/32.56 (step t8717 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e12 tptp.e14)) :rule contraction :premises (t8716))
% 32.29/32.56 (step t8718 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e12 tptp.e14)) (= tptp.e12 tptp.e14)) :rule resolution :premises (t8710 t8717))
% 32.29/32.56 (step t8719 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e12 tptp.e14)) (not (= tptp.e12 tptp.e14))) :rule implies_neg2)
% 32.29/32.56 (step t8720 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e12 tptp.e14)) (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e12 tptp.e14))) :rule resolution :premises (t8718 t8719))
% 32.29/32.56 (step t8721 (cl (=> (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e12 tptp.e14))) :rule contraction :premises (t8720))
% 32.29/32.56 (step t8722 (cl (not (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e12 tptp.e14)) :rule implies :premises (t8721))
% 32.29/32.56 (step t8723 (cl (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= tptp.e12 tptp.e14)) :rule resolution :premises (t8709 t8722))
% 32.29/32.56 (step t8724 (cl (= tptp.e12 tptp.e14) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10))) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8723))
% 32.29/32.56 (step t8725 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1))) :rule resolution :premises (t8103 t8129 t1858 t5239 t8144 t2311 t8177 t799 t767 t7852 t1381 t5239 t8219 t767 t8220 t1381 t1382 t2312 t8246 t2154 t2312 t8286 t767 t8287 t5239 t1382 t8324 t5220 t2193 t8351 t3472 t4707 t8377 t5292 t5239 t8403 t5162 t1381 t8445 t767 t8446 t4707 t1382 t2312 t8475 t1950 t767 t768 t8501 t8220 t1381 t8539 t8557 t767 t768 t8583 t8287 t5239 t8636 t1999 t7328 t8691 t2706 t4707 t7328 t8707 t8708 t4468 t8724 t3733 t1381))
% 32.29/32.56 (step t8726 (cl (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24))) :rule contraction :premises (t8725))
% 32.29/32.56 (step t8727 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20))) :rule or :premises (t2924))
% 32.29/32.56 (step t8728 (cl (= tptp.e21 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e20))) :rule or :premises (t2967))
% 32.29/32.56 (step t8729 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e24))) :rule or :premises (t2969))
% 32.29/32.56 (step t8730 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))) :rule resolution :premises (t8726 t8727 t2966 t8728 t462 t8729 t3007))
% 32.29/32.56 (step t8731 (cl (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e22 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e22))) :rule contraction :premises (t8730))
% 32.29/32.56 (step t8732 (cl (= tptp.e10 tptp.unit1) (= tptp.e11 tptp.unit1) (= tptp.e12 tptp.unit1) (= tptp.e13 tptp.unit1) (= tptp.e14 tptp.unit1)) :rule or :premises (t5201))
% 32.29/32.56 (step t8733 (cl (= tptp.e24 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e22)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e24))) :rule or :premises (t2409))
% 32.29/32.56 (step t8734 (cl (and (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e10)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e12)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule or :premises (t3824))
% 32.29/32.56 (step t8735 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule and_pos)
% 32.29/32.56 (step t8736 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (and (= tptp.e10 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))))) :rule reordering :premises (t8735))
% 32.29/32.56 (step t8737 (cl (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule and_neg)
% 32.29/32.56 (step t8738 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8739)
% 32.29/32.56 (assume t8739.a0 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.56 (assume t8739.a1 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (step t8739.t1 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8739.t2)
% 32.29/32.56 (assume t8739.t2.a0 (= tptp.e10 tptp.unit1))
% 32.29/32.56 (assume t8739.t2.a1 (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))
% 32.29/32.56 (step t8739.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.unit1) tptp.e13)) :rule symm :premises (t8739.t2.a1))
% 32.29/32.56 (step t8739.t2.t2 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule symm :premises (t8739.t2.t1))
% 32.29/32.56 (step t8739.t2.t3 (cl (= tptp.e13 tptp.e13)) :rule refl)
% 32.29/32.56 (step t8739.t2.t4 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t8739.t2.a0))
% 32.29/32.56 (step t8739.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.unit1) (tptp.op1 tptp.e13 tptp.e10))) :rule cong :premises (t8739.t2.t3 t8739.t2.t4))
% 32.29/32.56 (step t8739.t2.t6 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule trans :premises (t8739.t2.t2 t8739.t2.t5))
% 32.29/32.56 (step t8739.t2 (cl (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t8739.t2.a0 t8739.t2.a1))
% 32.29/32.56 (step t8739.t3 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8739.t4 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.56 (step t8739.t5 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))))) :rule resolution :premises (t8739.t2 t8739.t3 t8739.t4))
% 32.29/32.56 (step t8739.t6 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t8739.t5))
% 32.29/32.56 (step t8739.t7 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t8739.t6))
% 32.29/32.56 (step t8739.t8 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8739.t1 t8739.t7))
% 32.29/32.56 (step t8739.t9 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.56 (step t8739.t10 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8739.t8 t8739.t9))
% 32.29/32.56 (step t8739.t11 (cl (=> (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t8739.t10))
% 32.29/32.56 (step t8739.t12 (cl (not (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t8739.t11))
% 32.29/32.56 (step t8739.t13 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule and_neg)
% 32.29/32.56 (step t8739.t14 (cl (and (= tptp.e10 tptp.unit1) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)))) :rule resolution :premises (t8739.t13 t8739.a1 t8739.a0))
% 32.29/32.56 (step t8739.t15 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8739.t12 t8739.t14))
% 32.29/32.56 (step t8739 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule subproof :discharge (t8739.a0 t8739.a1))
% 32.29/32.56 (step t8740 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) :rule and_pos)
% 32.29/32.56 (step t8741 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.29/32.56 (step t8742 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t8739 t8740 t8741))
% 32.29/32.56 (step t8743 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule reordering :premises (t8742))
% 32.29/32.56 (step t8744 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule contraction :premises (t8743))
% 32.29/32.56 (step t8745 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8738 t8744))
% 32.29/32.56 (step t8746 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule implies_neg2)
% 32.29/32.56 (step t8747 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule resolution :premises (t8745 t8746))
% 32.29/32.56 (step t8748 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)))) :rule contraction :premises (t8747))
% 32.29/32.56 (step t8749 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule implies :premises (t8748))
% 32.29/32.56 (step t8750 (cl (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10))) :rule resolution :premises (t8737 t8749))
% 32.29/32.56 (step t8751 (cl (= tptp.e13 (tptp.op1 tptp.e13 tptp.e10)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.unit1))) (not (= tptp.e10 tptp.unit1))) :rule reordering :premises (t8750))
% 32.29/32.56 (step t8752 (cl (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e10 tptp.unit1))) :rule resolution :premises (t8734 t3829 t3835 t3838 t3841 t3847 t3889 t3931 t3934 t3937 t3940 t3943 t3946 t7958 t7956 t8736 t4367 t4369 t4359 t4361 t8144 t2311 t8129 t1858 t5239 t8751 t5239))
% 32.29/32.56 (step t8753 (cl (and (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e10 tptp.e12)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e10)) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.e10)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e10 tptp.unit1))) :rule contraction :premises (t8752))
% 32.29/32.56 (step t8754 (cl (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8755 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8756)
% 32.29/32.56 (assume t8756.a0 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))
% 32.29/32.56 (assume t8756.a1 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8756.a2 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8756.a3 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.56 (assume t8756.a4 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8756.a5 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8756.a6 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t8756.t1 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8756.t2)
% 32.29/32.56 (assume t8756.t2.a0 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t8756.t2.a1 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8756.t2.a2 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8756.t2.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8756.t2.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8756.t2.a5 (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)))
% 32.29/32.56 (assume t8756.t2.a6 (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))
% 32.29/32.56 (step t8756.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e13) tptp.e11)) :rule symm :premises (t8756.t2.a6))
% 32.29/32.56 (step t8756.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.h1 tptp.e11))) :rule cong :premises (t8756.t2.t1))
% 32.29/32.56 (step t8756.t2.t3 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8756.t2.a2))
% 32.29/32.56 (step t8756.t2.t4 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t8756.t2.a3))
% 32.29/32.56 (step t8756.t2.t5 (cl (= (tptp.op2 tptp.e23 tptp.e23) tptp.e24)) :rule symm :premises (t8756.t2.a5))
% 32.29/32.56 (step t8756.t2.t6 (cl (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) :rule symm :premises (t8756.t2.t5))
% 32.29/32.56 (step t8756.t2.t7 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t8756.t2.a4))
% 32.29/32.56 (step t8756.t2.t8 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t8756.t2.t7))
% 32.29/32.56 (step t8756.t2.t9 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8756.t2.t4))
% 32.29/32.56 (step t8756.t2.t10 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t8756.t2.t9 t8756.t2.a2))
% 32.29/32.56 (step t8756.t2.t11 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t8756.t2.a1 t8756.t2.t10))
% 32.29/32.56 (step t8756.t2.t12 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8756.t2.a1))
% 32.29/32.56 (step t8756.t2.t13 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t8756.t2.t12 t8756.t2.t3))
% 32.29/32.56 (step t8756.t2.t14 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8756.t2.a0))
% 32.29/32.56 (step t8756.t2.t15 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t8756.t2.t14))
% 32.29/32.56 (step t8756.t2.t16 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t8756.t2.t8 t8756.t2.t11 t8756.t2.t13 t8756.t2.t15))
% 32.29/32.56 (step t8756.t2.t17 (cl (= (tptp.op2 tptp.e23 tptp.e23) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule cong :premises (t8756.t2.t16 t8756.t2.t16))
% 32.29/32.56 (step t8756.t2.t18 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule trans :premises (t8756.t2.t2 t8756.t2.t3 t8756.t2.t4 t8756.t2.t6 t8756.t2.t17))
% 32.29/32.56 (step t8756.t2 (cl (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule subproof :discharge (t8756.t2.a0 t8756.t2.a1 t8756.t2.a2 t8756.t2.a3 t8756.t2.a4 t8756.t2.a5 t8756.t2.a6))
% 32.29/32.56 (step t8756.t3 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8756.t4 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8756.t5 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8756.t6 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8756.t7 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8756.t8 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.56 (step t8756.t9 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8756.t10 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))))) :rule resolution :premises (t8756.t2 t8756.t3 t8756.t4 t8756.t5 t8756.t6 t8756.t7 t8756.t8 t8756.t9))
% 32.29/32.56 (step t8756.t11 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8756.t10))
% 32.29/32.56 (step t8756.t12 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule contraction :premises (t8756.t11))
% 32.29/32.56 (step t8756.t13 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8756.t1 t8756.t12))
% 32.29/32.56 (step t8756.t14 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))))) :rule implies_neg2)
% 32.29/32.56 (step t8756.t15 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8756.t13 t8756.t14))
% 32.29/32.56 (step t8756.t16 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))))) :rule contraction :premises (t8756.t15))
% 32.29/32.56 (step t8756.t17 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule implies :premises (t8756.t16))
% 32.29/32.56 (step t8756.t18 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8756.t19 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)))) :rule resolution :premises (t8756.t18 t8756.a6 t8756.a4 t8756.a5 t8756.a1 t8756.a2 t8756.a3 t8756.a0))
% 32.29/32.56 (step t8756.t20 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8756.t17 t8756.t19))
% 32.29/32.56 (step t8756 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule subproof :discharge (t8756.a0 t8756.a1 t8756.a2 t8756.a3 t8756.a4 t8756.a5 t8756.a6))
% 32.29/32.56 (step t8757 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8758 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8759 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8760 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) :rule and_pos)
% 32.29/32.56 (step t8761 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8762 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8763 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8764 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8756 t8757 t8758 t8759 t8760 t8761 t8762 t8763))
% 32.29/32.56 (step t8765 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8764))
% 32.29/32.56 (step t8766 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule contraction :premises (t8765))
% 32.29/32.56 (step t8767 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8755 t8766))
% 32.29/32.56 (step t8768 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))))) :rule implies_neg2)
% 32.29/32.56 (step t8769 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8767 t8768))
% 32.29/32.56 (step t8770 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))))) :rule contraction :premises (t8769))
% 32.29/32.56 (step t8771 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule implies :premises (t8770))
% 32.29/32.56 (step t8772 (cl (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8754 t8771))
% 32.29/32.56 (step t8773 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8772))
% 32.29/32.56 (step t8774 (cl (not (= (and (= (tptp.h1 tptp.e14) tptp.e20) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) (not (and (= (tptp.h1 tptp.e14) tptp.e20) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20))))) (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule equiv_pos2)
% 32.29/32.56 (step t8775 (cl (= (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))) :rule refl)
% 32.29/32.56 (step t8776 (cl (= (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule all_simplify)
% 32.29/32.56 (step t8777 (cl (= (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))) :rule refl)
% 32.29/32.56 (step t8778 (cl (= (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule all_simplify)
% 32.29/32.56 (step t8779 (cl (= (and (= (tptp.h1 tptp.e14) tptp.e20) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule cong :premises (t493 t8775 t8776 t8777 t8778))
% 32.29/32.56 (step t8780 (cl (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8774 t8779 a15))
% 32.29/32.56 (step t8781 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and :premises (t8780))
% 32.29/32.56 (step t8782 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and :premises (t8780))
% 32.29/32.56 (step t8783 (cl (= tptp.e20 (tptp.h1 tptp.e14))) :rule and :premises (t8780))
% 32.29/32.56 (step t8784 (cl (not (and (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14))) (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14))) (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14))) (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14))) (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))))) :rule not_or :premises (t746))
% 32.29/32.56 (step t8785 (cl (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) (not (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)))) (not (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14)))) (not (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14)))) (not (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14)))) (not (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14))))) :rule not_and :premises (t8784))
% 32.29/32.56 (step t8786 (cl (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule and_neg)
% 32.29/32.56 (step t8787 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8788)
% 32.29/32.56 (assume t8788.a0 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.56 (assume t8788.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.56 (assume t8788.a2 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t8788.a3 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8788.a4 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (step t8788.t1 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8788.t2)
% 32.29/32.56 (assume t8788.t2.a0 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8788.t2.a1 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8788.t2.a2 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t8788.t2.a3 (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)))
% 32.29/32.56 (assume t8788.t2.a4 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.56 (step t8788.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8788.t2.a4))
% 32.29/32.56 (step t8788.t2.t2 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8788.t2.t1))
% 32.29/32.56 (step t8788.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.56 (step t8788.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e14) (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule cong :premises (t8788.t2.t2 t8788.t2.t3))
% 32.29/32.56 (step t8788.t2.t5 (cl (= (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14) tptp.e10)) :rule symm :premises (t8788.t2.a3))
% 32.29/32.56 (step t8788.t2.t6 (cl (= (tptp.op1 tptp.e11 tptp.e14) tptp.e10)) :rule trans :premises (t8788.t2.t4 t8788.t2.t5))
% 32.29/32.56 (step t8788.t2.t7 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.h1 tptp.e10))) :rule cong :premises (t8788.t2.t6))
% 32.29/32.56 (step t8788.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.h1 tptp.e10))) :rule symm :premises (t8788.t2.a2))
% 32.29/32.56 (step t8788.t2.t9 (cl (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule symm :premises (t8788.t2.t8))
% 32.29/32.56 (step t8788.t2.t10 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8788.t2.a0))
% 32.29/32.56 (step t8788.t2.t11 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule symm :premises (t8788.t2.t10))
% 32.29/32.56 (step t8788.t2.t12 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8788.t2.a1))
% 32.29/32.56 (step t8788.t2.t13 (cl (= tptp.e20 (tptp.h1 tptp.e14))) :rule symm :premises (t8788.t2.t12))
% 32.29/32.56 (step t8788.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule cong :premises (t8788.t2.t11 t8788.t2.t13))
% 32.29/32.56 (step t8788.t2.t15 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule trans :premises (t8788.t2.t7 t8788.t2.t9 t8788.t2.t14))
% 32.29/32.56 (step t8788.t2 (cl (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule subproof :discharge (t8788.t2.a0 t8788.t2.a1 t8788.t2.a2 t8788.t2.a3 t8788.t2.a4))
% 32.29/32.56 (step t8788.t3 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8788.t4 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8788.t5 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8788.t6 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8788.t7 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8788.t8 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8788.t2 t8788.t3 t8788.t4 t8788.t5 t8788.t6 t8788.t7))
% 32.29/32.56 (step t8788.t9 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule reordering :premises (t8788.t8))
% 32.29/32.56 (step t8788.t10 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule contraction :premises (t8788.t9))
% 32.29/32.56 (step t8788.t11 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8788.t1 t8788.t10))
% 32.29/32.56 (step t8788.t12 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))))) :rule implies_neg2)
% 32.29/32.56 (step t8788.t13 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))))) :rule resolution :premises (t8788.t11 t8788.t12))
% 32.29/32.56 (step t8788.t14 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))))) :rule contraction :premises (t8788.t13))
% 32.29/32.56 (step t8788.t15 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule implies :premises (t8788.t14))
% 32.29/32.56 (step t8788.t16 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.56 (step t8788.t17 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t8788.t16 t8788.a4 t8788.a3 t8788.a2 t8788.a0 t8788.a1))
% 32.29/32.56 (step t8788.t18 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8788.t15 t8788.t17))
% 32.29/32.56 (step t8788 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule subproof :discharge (t8788.a0 t8788.a1 t8788.a2 t8788.a3 t8788.a4))
% 32.29/32.56 (step t8789 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8790 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8791 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8792 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8793 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8794 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))))) :rule resolution :premises (t8788 t8789 t8790 t8791 t8792 t8793))
% 32.29/32.56 (step t8795 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule reordering :premises (t8794))
% 32.29/32.56 (step t8796 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule contraction :premises (t8795))
% 32.29/32.56 (step t8797 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8787 t8796))
% 32.29/32.56 (step t8798 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))))) :rule implies_neg2)
% 32.29/32.56 (step t8799 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))))) :rule resolution :premises (t8797 t8798))
% 32.29/32.56 (step t8800 (cl (=> (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))))) :rule contraction :premises (t8799))
% 32.29/32.56 (step t8801 (cl (not (and (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule implies :premises (t8800))
% 32.29/32.56 (step t8802 (cl (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8786 t8801))
% 32.29/32.56 (step t8803 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e10 (tptp.op1 (tptp.op1 tptp.e14 tptp.e14) tptp.e14))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule reordering :premises (t8802))
% 32.29/32.56 (step t8804 (cl (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and :premises (t8780))
% 32.29/32.56 (step t8805 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8803 t767 t768 t8783 t8804 t8782))
% 32.29/32.56 (step t8806 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8807 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8808)
% 32.29/32.56 (assume t8808.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.56 (assume t8808.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.56 (assume t8808.a2 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8808.a3 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8808.a4 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t8808.t1 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8808.t2)
% 32.29/32.56 (assume t8808.t2.a0 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t8808.t2.a1 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8808.t2.a2 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8808.t2.a3 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.56 (assume t8808.t2.a4 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.56 (step t8808.t2.t1 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t8808.t2.a4))
% 32.29/32.56 (step t8808.t2.t2 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t8808.t2.t1))
% 32.29/32.56 (step t8808.t2.t3 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.56 (step t8808.t2.t4 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule cong :premises (t8808.t2.t2 t8808.t2.t3))
% 32.29/32.56 (step t8808.t2.t5 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t8808.t2.a3))
% 32.29/32.56 (step t8808.t2.t6 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule trans :premises (t8808.t2.t4 t8808.t2.t5))
% 32.29/32.56 (step t8808.t2.t7 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.h1 tptp.e12))) :rule cong :premises (t8808.t2.t6))
% 32.29/32.56 (step t8808.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t8808.t2.a2))
% 32.29/32.56 (step t8808.t2.t9 (cl (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule symm :premises (t8808.t2.t8))
% 32.29/32.56 (step t8808.t2.t10 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8808.t2.a0))
% 32.29/32.56 (step t8808.t2.t11 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t8808.t2.t10))
% 32.29/32.56 (step t8808.t2.t12 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8808.t2.a1))
% 32.29/32.56 (step t8808.t2.t13 (cl (= tptp.e20 (tptp.h1 tptp.e14))) :rule symm :premises (t8808.t2.t12))
% 32.29/32.56 (step t8808.t2.t14 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule cong :premises (t8808.t2.t11 t8808.t2.t13))
% 32.29/32.56 (step t8808.t2.t15 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule trans :premises (t8808.t2.t7 t8808.t2.t9 t8808.t2.t14))
% 32.29/32.56 (step t8808.t2 (cl (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule subproof :discharge (t8808.t2.a0 t8808.t2.a1 t8808.t2.a2 t8808.t2.a3 t8808.t2.a4))
% 32.29/32.56 (step t8808.t3 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8808.t4 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8808.t5 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8808.t6 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8808.t7 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.56 (step t8808.t8 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule resolution :premises (t8808.t2 t8808.t3 t8808.t4 t8808.t5 t8808.t6 t8808.t7))
% 32.29/32.56 (step t8808.t9 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule reordering :premises (t8808.t8))
% 32.29/32.56 (step t8808.t10 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule contraction :premises (t8808.t9))
% 32.29/32.56 (step t8808.t11 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8808.t1 t8808.t10))
% 32.29/32.56 (step t8808.t12 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))))) :rule implies_neg2)
% 32.29/32.56 (step t8808.t13 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))))) :rule resolution :premises (t8808.t11 t8808.t12))
% 32.29/32.56 (step t8808.t14 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))))) :rule contraction :premises (t8808.t13))
% 32.29/32.56 (step t8808.t15 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule implies :premises (t8808.t14))
% 32.29/32.56 (step t8808.t16 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule and_neg)
% 32.29/32.56 (step t8808.t17 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8808.t16 t8808.a4 t8808.a3 t8808.a2 t8808.a0 t8808.a1))
% 32.29/32.56 (step t8808.t18 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8808.t15 t8808.t17))
% 32.29/32.56 (step t8808 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule subproof :discharge (t8808.a0 t8808.a1 t8808.a2 t8808.a3 t8808.a4))
% 32.29/32.56 (step t8809 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8810 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.56 (step t8811 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8812 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8813 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8814 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8808 t8809 t8810 t8811 t8812 t8813))
% 32.29/32.56 (step t8815 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule reordering :premises (t8814))
% 32.29/32.56 (step t8816 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule contraction :premises (t8815))
% 32.29/32.56 (step t8817 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8807 t8816))
% 32.29/32.56 (step t8818 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))))) :rule implies_neg2)
% 32.29/32.56 (step t8819 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))))) :rule resolution :premises (t8817 t8818))
% 32.29/32.56 (step t8820 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))))) :rule contraction :premises (t8819))
% 32.29/32.56 (step t8821 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule implies :premises (t8820))
% 32.29/32.56 (step t8822 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8806 t8821))
% 32.29/32.56 (step t8823 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8822))
% 32.29/32.56 (step t8824 (cl (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and :premises (t8780))
% 32.29/32.56 (step t8825 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8823 t798 t799 t8783 t8824 t8781))
% 32.29/32.56 (step t8826 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8827 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8828)
% 32.29/32.56 (assume t8828.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.56 (assume t8828.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.56 (assume t8828.a2 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8828.a3 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8828.a4 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t8828.t1 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8828.t2)
% 32.29/32.56 (assume t8828.t2.a0 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8828.t2.a1 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8828.t2.a2 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t8828.t2.a3 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.56 (assume t8828.t2.a4 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.56 (step t8828.t2.t1 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.56 (step t8828.t2.t2 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8828.t2.a4))
% 32.29/32.56 (step t8828.t2.t3 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8828.t2.t2))
% 32.29/32.56 (step t8828.t2.t4 (cl (= (tptp.op1 tptp.e14 tptp.e11) (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule cong :premises (t8828.t2.t1 t8828.t2.t3))
% 32.29/32.56 (step t8828.t2.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t8828.t2.a3))
% 32.29/32.56 (step t8828.t2.t6 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t8828.t2.t5))
% 32.29/32.56 (step t8828.t2.t7 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t8828.t2.t6))
% 32.29/32.56 (step t8828.t2.t8 (cl (= (tptp.op1 tptp.e14 tptp.e11) tptp.e13)) :rule trans :premises (t8828.t2.t4 t8828.t2.t7))
% 32.29/32.56 (step t8828.t2.t9 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.h1 tptp.e13))) :rule cong :premises (t8828.t2.t8))
% 32.29/32.56 (step t8828.t2.t10 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8828.t2.a2))
% 32.29/32.56 (step t8828.t2.t11 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t8828.t2.t10))
% 32.29/32.56 (step t8828.t2.t12 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8828.t2.t11))
% 32.29/32.56 (step t8828.t2.t13 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8828.t2.a0))
% 32.29/32.56 (step t8828.t2.t14 (cl (= tptp.e20 (tptp.h1 tptp.e14))) :rule symm :premises (t8828.t2.t13))
% 32.29/32.56 (step t8828.t2.t15 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8828.t2.a1))
% 32.29/32.56 (step t8828.t2.t16 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule symm :premises (t8828.t2.t15))
% 32.29/32.56 (step t8828.t2.t17 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t8828.t2.t14 t8828.t2.t16))
% 32.29/32.56 (step t8828.t2.t18 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule trans :premises (t8828.t2.t9 t8828.t2.t12 t8828.t2.t17))
% 32.29/32.56 (step t8828.t2 (cl (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule subproof :discharge (t8828.t2.a0 t8828.t2.a1 t8828.t2.a2 t8828.t2.a3 t8828.t2.a4))
% 32.29/32.56 (step t8828.t3 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8828.t4 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8828.t5 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8828.t6 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.56 (step t8828.t7 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8828.t8 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8828.t2 t8828.t3 t8828.t4 t8828.t5 t8828.t6 t8828.t7))
% 32.29/32.56 (step t8828.t9 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule reordering :premises (t8828.t8))
% 32.29/32.56 (step t8828.t10 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule contraction :premises (t8828.t9))
% 32.29/32.56 (step t8828.t11 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8828.t1 t8828.t10))
% 32.29/32.56 (step t8828.t12 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))))) :rule implies_neg2)
% 32.29/32.56 (step t8828.t13 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))))) :rule resolution :premises (t8828.t11 t8828.t12))
% 32.29/32.56 (step t8828.t14 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))))) :rule contraction :premises (t8828.t13))
% 32.29/32.56 (step t8828.t15 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule implies :premises (t8828.t14))
% 32.29/32.56 (step t8828.t16 (cl (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.56 (step t8828.t17 (cl (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t8828.t16 t8828.a2 t8828.a3 t8828.a4 t8828.a1 t8828.a0))
% 32.29/32.56 (step t8828.t18 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8828.t15 t8828.t17))
% 32.29/32.56 (step t8828 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule subproof :discharge (t8828.a0 t8828.a1 t8828.a2 t8828.a3 t8828.a4))
% 32.29/32.56 (step t8829 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8830 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.56 (step t8831 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8832 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8833 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8834 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8828 t8829 t8830 t8831 t8832 t8833))
% 32.29/32.56 (step t8835 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule reordering :premises (t8834))
% 32.29/32.56 (step t8836 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule contraction :premises (t8835))
% 32.29/32.56 (step t8837 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8827 t8836))
% 32.29/32.56 (step t8838 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))))) :rule implies_neg2)
% 32.29/32.56 (step t8839 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))))) :rule resolution :premises (t8837 t8838))
% 32.29/32.56 (step t8840 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))))) :rule contraction :premises (t8839))
% 32.29/32.56 (step t8841 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule implies :premises (t8840))
% 32.29/32.56 (step t8842 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8826 t8841))
% 32.29/32.56 (step t8843 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8842))
% 32.29/32.56 (step t8844 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8843 t767 t799 t8783 t8782 t8781))
% 32.29/32.56 (step t8845 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule and_neg)
% 32.29/32.56 (step t8846 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8847)
% 32.29/32.56 (assume t8847.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.56 (assume t8847.a1 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8847.a2 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (step t8847.t1 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8847.t2)
% 32.29/32.56 (assume t8847.t2.a0 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8847.t2.a1 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8847.t2.a2 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.56 (step t8847.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8847.t2.a2))
% 32.29/32.56 (step t8847.t2.t2 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t8847.t2.t1))
% 32.29/32.56 (step t8847.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t8847.t2.t2))
% 32.29/32.56 (step t8847.t2.t4 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.h1 tptp.e11))) :rule cong :premises (t8847.t2.t3))
% 32.29/32.56 (step t8847.t2.t5 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8847.t2.a1))
% 32.29/32.56 (step t8847.t2.t6 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule symm :premises (t8847.t2.t5))
% 32.29/32.56 (step t8847.t2.t7 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8847.t2.t6))
% 32.29/32.56 (step t8847.t2.t8 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8847.t2.a0))
% 32.29/32.56 (step t8847.t2.t9 (cl (= tptp.e20 (tptp.h1 tptp.e14))) :rule symm :premises (t8847.t2.t8))
% 32.29/32.56 (step t8847.t2.t10 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule cong :premises (t8847.t2.t9 t8847.t2.t9))
% 32.29/32.56 (step t8847.t2.t11 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule trans :premises (t8847.t2.t4 t8847.t2.t7 t8847.t2.t10))
% 32.29/32.56 (step t8847.t2 (cl (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule subproof :discharge (t8847.t2.a0 t8847.t2.a1 t8847.t2.a2))
% 32.29/32.56 (step t8847.t3 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8847.t4 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8847.t5 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8847.t6 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t8847.t2 t8847.t3 t8847.t4 t8847.t5))
% 32.29/32.56 (step t8847.t7 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule reordering :premises (t8847.t6))
% 32.29/32.56 (step t8847.t8 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule contraction :premises (t8847.t7))
% 32.29/32.56 (step t8847.t9 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8847.t1 t8847.t8))
% 32.29/32.56 (step t8847.t10 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))))) :rule implies_neg2)
% 32.29/32.56 (step t8847.t11 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))))) :rule resolution :premises (t8847.t9 t8847.t10))
% 32.29/32.56 (step t8847.t12 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))))) :rule contraction :premises (t8847.t11))
% 32.29/32.56 (step t8847.t13 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule implies :premises (t8847.t12))
% 32.29/32.56 (step t8847.t14 (cl (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.56 (step t8847.t15 (cl (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t8847.t14 t8847.a1 t8847.a2 t8847.a0))
% 32.29/32.56 (step t8847.t16 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8847.t13 t8847.t15))
% 32.29/32.56 (step t8847 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule subproof :discharge (t8847.a0 t8847.a1 t8847.a2))
% 32.29/32.56 (step t8848 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8849 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8850 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8851 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))))) :rule resolution :premises (t8847 t8848 t8849 t8850))
% 32.29/32.56 (step t8852 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule reordering :premises (t8851))
% 32.29/32.56 (step t8853 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule contraction :premises (t8852))
% 32.29/32.56 (step t8854 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8846 t8853))
% 32.29/32.56 (step t8855 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))))) :rule implies_neg2)
% 32.29/32.56 (step t8856 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))))) :rule resolution :premises (t8854 t8855))
% 32.29/32.56 (step t8857 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))))) :rule contraction :premises (t8856))
% 32.29/32.56 (step t8858 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule implies :premises (t8857))
% 32.29/32.56 (step t8859 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8845 t8858))
% 32.29/32.56 (step t8860 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule reordering :premises (t8859))
% 32.29/32.56 (step t8861 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e14)))) :rule resolution :premises (t8860 t767 t8783 t8782))
% 32.29/32.56 (step t8862 (cl (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e20 (tptp.h1 tptp.e14)))) :rule or_neg)
% 32.29/32.56 (step t8863 (cl (or (= tptp.e20 (tptp.h1 tptp.e10)) (= tptp.e20 (tptp.h1 tptp.e11)) (= tptp.e20 (tptp.h1 tptp.e12)) (= tptp.e20 (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)))) :rule resolution :premises (t8862 t8783))
% 32.29/32.56 (step t8864 (cl (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e14))) :rule or :premises (t1454))
% 32.29/32.56 (step t8865 (cl (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8866 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8867)
% 32.29/32.56 (assume t8867.a0 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t8867.a1 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8867.a2 (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))
% 32.29/32.56 (assume t8867.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8867.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8867.a5 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.56 (assume t8867.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t8867.a7 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.56 (assume t8867.a8 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8867.a9 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8867.a10 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t8867.t1 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8867.t2)
% 32.29/32.56 (assume t8867.t2.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8867.t2.a1 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t8867.t2.a2 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8867.t2.a3 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8867.t2.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8867.t2.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8867.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t8867.t2.a7 (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)))
% 32.29/32.56 (assume t8867.t2.a8 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.56 (assume t8867.t2.a9 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t8867.t2.a10 (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))
% 32.29/32.56 (step t8867.t2.t1 (cl (= (tptp.op1 tptp.e12 tptp.e13) tptp.e10)) :rule symm :premises (t8867.t2.a10))
% 32.29/32.56 (step t8867.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.h1 tptp.e10))) :rule cong :premises (t8867.t2.t1))
% 32.29/32.56 (step t8867.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.h1 tptp.e10))) :rule symm :premises (t8867.t2.a9))
% 32.29/32.56 (step t8867.t2.t4 (cl (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule symm :premises (t8867.t2.t3))
% 32.29/32.56 (step t8867.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t8867.t2.a4))
% 32.29/32.56 (step t8867.t2.t6 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.56 (step t8867.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) :rule cong :premises (t8867.t2.t5 t8867.t2.t6))
% 32.29/32.56 (step t8867.t2.t8 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) :rule symm :premises (t8867.t2.a8))
% 32.29/32.56 (step t8867.t2.t9 (cl (= (tptp.op2 tptp.e21 tptp.e23) tptp.e22)) :rule symm :premises (t8867.t2.a7))
% 32.29/32.56 (step t8867.t2.t10 (cl (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule symm :premises (t8867.t2.t9))
% 32.29/32.56 (step t8867.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t8867.t2.a6))
% 32.29/32.56 (step t8867.t2.t12 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t8867.t2.t11))
% 32.29/32.56 (step t8867.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t8867.t2.a5))
% 32.29/32.56 (step t8867.t2.t14 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t8867.t2.t13))
% 32.29/32.56 (step t8867.t2.t15 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8867.t2.t5))
% 32.29/32.56 (step t8867.t2.t16 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t8867.t2.t15 t8867.t2.a3))
% 32.29/32.56 (step t8867.t2.t17 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t8867.t2.a2 t8867.t2.t16))
% 32.29/32.56 (step t8867.t2.t18 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8867.t2.a2))
% 32.29/32.56 (step t8867.t2.t19 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8867.t2.a3))
% 32.29/32.56 (step t8867.t2.t20 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t8867.t2.t18 t8867.t2.t19))
% 32.29/32.56 (step t8867.t2.t21 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8867.t2.a1))
% 32.29/32.56 (step t8867.t2.t22 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t8867.t2.t21))
% 32.29/32.56 (step t8867.t2.t23 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t8867.t2.t14 t8867.t2.t17 t8867.t2.t20 t8867.t2.t22))
% 32.29/32.56 (step t8867.t2.t24 (cl (= tptp.e23 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule trans :premises (t8867.t2.t23 t8867.t2.t21))
% 32.29/32.56 (step t8867.t2.t25 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule cong :premises (t8867.t2.t24 t8867.t2.t6))
% 32.29/32.56 (step t8867.t2.t26 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t8867.t2.a0))
% 32.29/32.56 (step t8867.t2.t27 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule trans :premises (t8867.t2.t12 t8867.t2.t25 t8867.t2.t26))
% 32.29/32.56 (step t8867.t2.t28 (cl (= (tptp.op2 tptp.e21 tptp.e23) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule cong :premises (t8867.t2.t27 t8867.t2.t23))
% 32.29/32.56 (step t8867.t2.t29 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule trans :premises (t8867.t2.t2 t8867.t2.t4 t8867.t2.t7 t8867.t2.t8 t8867.t2.t10 t8867.t2.t28))
% 32.29/32.56 (step t8867.t2 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule subproof :discharge (t8867.t2.a0 t8867.t2.a1 t8867.t2.a2 t8867.t2.a3 t8867.t2.a4 t8867.t2.a5 t8867.t2.a6 t8867.t2.a7 t8867.t2.a8 t8867.t2.a9 t8867.t2.a10))
% 32.29/32.56 (step t8867.t3 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8867.t4 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8867.t5 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8867.t6 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8867.t7 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8867.t8 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8867.t9 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8867.t10 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.56 (step t8867.t11 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8867.t12 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8867.t13 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8867.t14 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))))) :rule resolution :premises (t8867.t2 t8867.t3 t8867.t4 t8867.t5 t8867.t6 t8867.t7 t8867.t8 t8867.t9 t8867.t10 t8867.t11 t8867.t12 t8867.t13))
% 32.29/32.56 (step t8867.t15 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8867.t14))
% 32.29/32.56 (step t8867.t16 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule contraction :premises (t8867.t15))
% 32.29/32.56 (step t8867.t17 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8867.t1 t8867.t16))
% 32.29/32.56 (step t8867.t18 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))))) :rule implies_neg2)
% 32.29/32.56 (step t8867.t19 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8867.t17 t8867.t18))
% 32.29/32.56 (step t8867.t20 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))))) :rule contraction :premises (t8867.t19))
% 32.29/32.56 (step t8867.t21 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule implies :premises (t8867.t20))
% 32.29/32.56 (step t8867.t22 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8867.t23 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)))) :rule resolution :premises (t8867.t22 t8867.a1 t8867.a10 t8867.a8 t8867.a9 t8867.a3 t8867.a4 t8867.a6 t8867.a5 t8867.a7 t8867.a0 t8867.a2))
% 32.29/32.56 (step t8867.t24 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8867.t21 t8867.t23))
% 32.29/32.56 (step t8867 (cl (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule subproof :discharge (t8867.a0 t8867.a1 t8867.a2 t8867.a3 t8867.a4 t8867.a5 t8867.a6 t8867.a7 t8867.a8 t8867.a9 t8867.a10))
% 32.29/32.56 (step t8868 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8869 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8870 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8871 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8872 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8873 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) :rule and_pos)
% 32.29/32.56 (step t8874 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8875 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8876 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8877 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8878 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8879 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8867 t8868 t8869 t8870 t8871 t8872 t8873 t8874 t8875 t8876 t8877 t8878))
% 32.29/32.56 (step t8880 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8879))
% 32.29/32.56 (step t8881 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule contraction :premises (t8880))
% 32.29/32.56 (step t8882 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8866 t8881))
% 32.29/32.56 (step t8883 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))))) :rule implies_neg2)
% 32.29/32.56 (step t8884 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8882 t8883))
% 32.29/32.56 (step t8885 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))))) :rule contraction :premises (t8884))
% 32.29/32.56 (step t8886 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule implies :premises (t8885))
% 32.29/32.56 (step t8887 (cl (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8865 t8886))
% 32.29/32.56 (step t8888 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e13))) (not (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8887))
% 32.29/32.56 (step t8889 (cl (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8890 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8891)
% 32.29/32.56 (assume t8891.a0 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.56 (assume t8891.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.56 (assume t8891.a2 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t8891.a3 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.56 (assume t8891.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8891.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8891.a6 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.56 (assume t8891.a7 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8891.a8 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8891.a9 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t8891.t1 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8891.t2)
% 32.29/32.56 (assume t8891.t2.a0 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t8891.t2.a1 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8891.t2.a2 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8891.t2.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8891.t2.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8891.t2.a5 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.29/32.56 (assume t8891.t2.a6 (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)))
% 32.29/32.56 (assume t8891.t2.a7 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.56 (assume t8891.t2.a8 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t8891.t2.a9 (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))
% 32.29/32.56 (step t8891.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e11) tptp.e10)) :rule symm :premises (t8891.t2.a9))
% 32.29/32.56 (step t8891.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.h1 tptp.e10))) :rule cong :premises (t8891.t2.t1))
% 32.29/32.56 (step t8891.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.h1 tptp.e10))) :rule symm :premises (t8891.t2.a8))
% 32.29/32.56 (step t8891.t2.t4 (cl (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule symm :premises (t8891.t2.t3))
% 32.29/32.56 (step t8891.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t8891.t2.a3))
% 32.29/32.56 (step t8891.t2.t6 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.56 (step t8891.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) :rule cong :premises (t8891.t2.t5 t8891.t2.t6))
% 32.29/32.56 (step t8891.t2.t8 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) :rule symm :premises (t8891.t2.a7))
% 32.29/32.56 (step t8891.t2.t9 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) tptp.e22)) :rule symm :premises (t8891.t2.a6))
% 32.29/32.56 (step t8891.t2.t10 (cl (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule symm :premises (t8891.t2.t9))
% 32.29/32.56 (step t8891.t2.t11 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t8891.t2.a5))
% 32.29/32.56 (step t8891.t2.t12 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.56 (step t8891.t2.t13 (cl (= (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24) (tptp.op2 tptp.e23 tptp.e24))) :rule cong :premises (t8891.t2.t11 t8891.t2.t12))
% 32.29/32.56 (step t8891.t2.t14 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t8891.t2.a4))
% 32.29/32.56 (step t8891.t2.t15 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t8891.t2.t14))
% 32.29/32.56 (step t8891.t2.t16 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8891.t2.t5))
% 32.29/32.56 (step t8891.t2.t17 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8891.t2.a2))
% 32.29/32.56 (step t8891.t2.t18 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule symm :premises (t8891.t2.t17))
% 32.29/32.56 (step t8891.t2.t19 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t8891.t2.t16 t8891.t2.t18))
% 32.29/32.56 (step t8891.t2.t20 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t8891.t2.a1 t8891.t2.t19))
% 32.29/32.56 (step t8891.t2.t21 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8891.t2.a1))
% 32.29/32.56 (step t8891.t2.t22 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t8891.t2.t21 t8891.t2.t17))
% 32.29/32.56 (step t8891.t2.t23 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8891.t2.a0))
% 32.29/32.56 (step t8891.t2.t24 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t8891.t2.t23))
% 32.29/32.56 (step t8891.t2.t25 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t8891.t2.t15 t8891.t2.t20 t8891.t2.t22 t8891.t2.t24))
% 32.29/32.56 (step t8891.t2.t26 (cl (= (tptp.op2 tptp.e23 tptp.e24) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule cong :premises (t8891.t2.t25 t8891.t2.t19))
% 32.29/32.56 (step t8891.t2.t27 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule trans :premises (t8891.t2.t2 t8891.t2.t4 t8891.t2.t7 t8891.t2.t8 t8891.t2.t10 t8891.t2.t13 t8891.t2.t26))
% 32.29/32.56 (step t8891.t2 (cl (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule subproof :discharge (t8891.t2.a0 t8891.t2.a1 t8891.t2.a2 t8891.t2.a3 t8891.t2.a4 t8891.t2.a5 t8891.t2.a6 t8891.t2.a7 t8891.t2.a8 t8891.t2.a9))
% 32.29/32.56 (step t8891.t3 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8891.t4 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8891.t5 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8891.t6 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8891.t7 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8891.t8 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.56 (step t8891.t9 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8891.t10 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8891.t11 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8891.t12 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8891.t13 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))))) :rule resolution :premises (t8891.t2 t8891.t3 t8891.t4 t8891.t5 t8891.t6 t8891.t7 t8891.t8 t8891.t9 t8891.t10 t8891.t11 t8891.t12))
% 32.29/32.56 (step t8891.t14 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule reordering :premises (t8891.t13))
% 32.29/32.56 (step t8891.t15 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule contraction :premises (t8891.t14))
% 32.29/32.56 (step t8891.t16 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8891.t1 t8891.t15))
% 32.29/32.56 (step t8891.t17 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))))) :rule implies_neg2)
% 32.29/32.56 (step t8891.t18 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))))) :rule resolution :premises (t8891.t16 t8891.t17))
% 32.29/32.56 (step t8891.t19 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))))) :rule contraction :premises (t8891.t18))
% 32.29/32.56 (step t8891.t20 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule implies :premises (t8891.t19))
% 32.29/32.56 (step t8891.t21 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule and_neg)
% 32.29/32.56 (step t8891.t22 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)))) :rule resolution :premises (t8891.t21 t8891.a9 t8891.a7 t8891.a8 t8891.a4 t8891.a5 t8891.a1 t8891.a0 t8891.a6 t8891.a2 t8891.a3))
% 32.29/32.56 (step t8891.t23 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8891.t20 t8891.t22))
% 32.29/32.56 (step t8891 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule subproof :discharge (t8891.a0 t8891.a1 t8891.a2 t8891.a3 t8891.a4 t8891.a5 t8891.a6 t8891.a7 t8891.a8 t8891.a9))
% 32.29/32.56 (step t8892 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8893 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.29/32.56 (step t8894 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8895 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8896 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8897 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8898 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8899 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8900 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8901 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8902 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8891 t8892 t8893 t8894 t8895 t8896 t8897 t8898 t8899 t8900 t8901))
% 32.29/32.56 (step t8903 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule reordering :premises (t8902))
% 32.29/32.56 (step t8904 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule contraction :premises (t8903))
% 32.29/32.56 (step t8905 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8890 t8904))
% 32.29/32.56 (step t8906 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))))) :rule implies_neg2)
% 32.29/32.56 (step t8907 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))))) :rule resolution :premises (t8905 t8906))
% 32.29/32.56 (step t8908 (cl (=> (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))))) :rule contraction :premises (t8907))
% 32.29/32.56 (step t8909 (cl (not (and (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule implies :premises (t8908))
% 32.29/32.56 (step t8910 (cl (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8889 t8909))
% 32.29/32.56 (step t8911 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e11))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 (tptp.op2 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8910))
% 32.29/32.56 (step t8912 (cl (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) :rule or :premises (t7046))
% 32.29/32.56 (step t8913 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14)))) (not (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14)))) (not (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14)))) (not (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) :rule resolution :premises (t8773 t8781 t8782 t8783 t8785 t8805 t8825 t8844 t8861 t8863 t8864 t1492 t8888 t8781 t8824 t8782 t8804 t8783 t8911 t8781 t8782 t8804 t8783 t864 t1679 t2783 t767 t768 t2784 t8912))
% 32.29/32.56 (step t8914 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14)))) (not (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14)))) (not (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14)))) (not (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14))) :rule contraction :premises (t8913))
% 32.29/32.56 (step t8915 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t2000))
% 32.29/32.56 (step t8916 (cl (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8917 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8918)
% 32.29/32.56 (assume t8918.a0 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.56 (assume t8918.a1 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.56 (assume t8918.a2 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8918.a3 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))
% 32.29/32.56 (assume t8918.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8918.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8918.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t8918.a7 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8918.a8 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8918.a9 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t8918.t1 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8918.t2)
% 32.29/32.56 (assume t8918.t2.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8918.t2.a1 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t8918.t2.a2 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8918.t2.a3 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8918.t2.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8918.t2.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8918.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t8918.t2.a7 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.29/32.56 (assume t8918.t2.a8 (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)))
% 32.29/32.56 (assume t8918.t2.a9 (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))
% 32.29/32.56 (step t8918.t2.t1 (cl (= (tptp.op1 tptp.e12 tptp.e11) tptp.e14)) :rule symm :premises (t8918.t2.a9))
% 32.29/32.56 (step t8918.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.h1 tptp.e14))) :rule cong :premises (t8918.t2.t1))
% 32.29/32.56 (step t8918.t2.t3 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8918.t2.a2))
% 32.29/32.56 (step t8918.t2.t4 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) tptp.e20)) :rule symm :premises (t8918.t2.a8))
% 32.29/32.56 (step t8918.t2.t5 (cl (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule symm :premises (t8918.t2.t4))
% 32.29/32.56 (step t8918.t2.t6 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t8918.t2.a7))
% 32.29/32.56 (step t8918.t2.t7 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.29/32.56 (step t8918.t2.t8 (cl (= (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24) (tptp.op2 tptp.e21 tptp.e24))) :rule cong :premises (t8918.t2.t6 t8918.t2.t7))
% 32.29/32.56 (step t8918.t2.t9 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t8918.t2.a6))
% 32.29/32.56 (step t8918.t2.t10 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t8918.t2.t9))
% 32.29/32.56 (step t8918.t2.t11 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t8918.t2.a5))
% 32.29/32.56 (step t8918.t2.t12 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t8918.t2.t11))
% 32.29/32.56 (step t8918.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t8918.t2.a4))
% 32.29/32.56 (step t8918.t2.t14 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8918.t2.t13))
% 32.29/32.56 (step t8918.t2.t15 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8918.t2.a3))
% 32.29/32.56 (step t8918.t2.t16 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule symm :premises (t8918.t2.t15))
% 32.29/32.56 (step t8918.t2.t17 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t8918.t2.t14 t8918.t2.t16))
% 32.29/32.56 (step t8918.t2.t18 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t8918.t2.a2 t8918.t2.t17))
% 32.29/32.56 (step t8918.t2.t19 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t8918.t2.t3 t8918.t2.t15))
% 32.29/32.56 (step t8918.t2.t20 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8918.t2.a1))
% 32.29/32.56 (step t8918.t2.t21 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t8918.t2.t20))
% 32.29/32.56 (step t8918.t2.t22 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t8918.t2.t12 t8918.t2.t18 t8918.t2.t19 t8918.t2.t21))
% 32.29/32.56 (step t8918.t2.t23 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8918.t2.t21))
% 32.29/32.56 (step t8918.t2.t24 (cl (= tptp.e23 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule trans :premises (t8918.t2.t22 t8918.t2.t23))
% 32.29/32.56 (step t8918.t2.t25 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.56 (step t8918.t2.t26 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule cong :premises (t8918.t2.t24 t8918.t2.t25))
% 32.29/32.56 (step t8918.t2.t27 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t8918.t2.a0))
% 32.29/32.56 (step t8918.t2.t28 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule trans :premises (t8918.t2.t10 t8918.t2.t26 t8918.t2.t27))
% 32.29/32.56 (step t8918.t2.t29 (cl (= (tptp.op2 tptp.e21 tptp.e24) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule cong :premises (t8918.t2.t28 t8918.t2.t17))
% 32.29/32.56 (step t8918.t2.t30 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule trans :premises (t8918.t2.t2 t8918.t2.t3 t8918.t2.t5 t8918.t2.t8 t8918.t2.t29))
% 32.29/32.56 (step t8918.t2 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule subproof :discharge (t8918.t2.a0 t8918.t2.a1 t8918.t2.a2 t8918.t2.a3 t8918.t2.a4 t8918.t2.a5 t8918.t2.a6 t8918.t2.a7 t8918.t2.a8 t8918.t2.a9))
% 32.29/32.56 (step t8918.t3 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8918.t4 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8918.t5 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8918.t6 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8918.t7 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8918.t8 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8918.t9 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8918.t10 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8918.t11 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8918.t12 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8918.t13 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))))) :rule resolution :premises (t8918.t2 t8918.t3 t8918.t4 t8918.t5 t8918.t6 t8918.t7 t8918.t8 t8918.t9 t8918.t10 t8918.t11 t8918.t12))
% 32.29/32.56 (step t8918.t14 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule reordering :premises (t8918.t13))
% 32.29/32.56 (step t8918.t15 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule contraction :premises (t8918.t14))
% 32.29/32.56 (step t8918.t16 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8918.t1 t8918.t15))
% 32.29/32.56 (step t8918.t17 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))))) :rule implies_neg2)
% 32.29/32.56 (step t8918.t18 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))))) :rule resolution :premises (t8918.t16 t8918.t17))
% 32.29/32.56 (step t8918.t19 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))))) :rule contraction :premises (t8918.t18))
% 32.29/32.56 (step t8918.t20 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule implies :premises (t8918.t19))
% 32.29/32.56 (step t8918.t21 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule and_neg)
% 32.29/32.56 (step t8918.t22 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t8918.t21 t8918.a2 t8918.a9 t8918.a7 t8918.a8 t8918.a4 t8918.a5 t8918.a6 t8918.a1 t8918.a0 t8918.a3))
% 32.29/32.56 (step t8918.t23 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8918.t20 t8918.t22))
% 32.29/32.56 (step t8918 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule subproof :discharge (t8918.a0 t8918.a1 t8918.a2 t8918.a3 t8918.a4 t8918.a5 t8918.a6 t8918.a7 t8918.a8 t8918.a9))
% 32.29/32.56 (step t8919 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8920 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8921 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8922 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8923 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8924 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8925 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8926 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8927 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8928 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8929 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8918 t8919 t8920 t8921 t8922 t8923 t8924 t8925 t8926 t8927 t8928))
% 32.29/32.56 (step t8930 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule reordering :premises (t8929))
% 32.29/32.56 (step t8931 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule contraction :premises (t8930))
% 32.29/32.56 (step t8932 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8917 t8931))
% 32.29/32.56 (step t8933 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))))) :rule implies_neg2)
% 32.29/32.56 (step t8934 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))))) :rule resolution :premises (t8932 t8933))
% 32.29/32.56 (step t8935 (cl (=> (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))))) :rule contraction :premises (t8934))
% 32.29/32.56 (step t8936 (cl (not (and (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule implies :premises (t8935))
% 32.29/32.56 (step t8937 (cl (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11)))) :rule resolution :premises (t8916 t8936))
% 32.29/32.56 (step t8938 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.op2 (tptp.op2 tptp.e24 tptp.e24) tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8937))
% 32.29/32.56 (step t8939 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14)))) (not (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14)))) (not (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14)))) (not (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t8914 t8915 t3828 t3272 t8938 t8781 t8824 t8782 t8783 t461 t865))
% 32.29/32.56 (step t8940 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14)))) (not (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14)))) (not (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14)))) (not (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule contraction :premises (t8939))
% 32.29/32.56 (step t8941 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14)))) (not (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14)))) (not (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14)))) (not (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11))) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule resolution :premises (t8940 t7087 t5162))
% 32.29/32.56 (step t8942 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14)))) (not (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14)))) (not (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14)))) (not (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)))) :rule contraction :premises (t8941))
% 32.29/32.56 (step t8943 (cl (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t7090))
% 32.29/32.56 (step t8944 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8945 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8946)
% 32.29/32.56 (assume t8946.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8946.a1 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.56 (assume t8946.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8946.a3 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8946.a4 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t8946.a5 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.56 (assume t8946.a6 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8946.a7 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8946.a8 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t8946.t1 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8946.t2)
% 32.29/32.56 (assume t8946.t2.a0 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t8946.t2.a1 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8946.t2.a2 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8946.t2.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8946.t2.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8946.t2.a5 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8946.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t8946.t2.a7 (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)))
% 32.29/32.56 (assume t8946.t2.a8 (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))
% 32.29/32.56 (step t8946.t2.t1 (cl (= (tptp.op1 tptp.e13 tptp.e12) tptp.e14)) :rule symm :premises (t8946.t2.a8))
% 32.29/32.56 (step t8946.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.h1 tptp.e14))) :rule cong :premises (t8946.t2.t1))
% 32.29/32.56 (step t8946.t2.t3 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8946.t2.a1))
% 32.29/32.56 (step t8946.t2.t4 (cl (= (tptp.op2 tptp.e23 tptp.e21) tptp.e20)) :rule symm :premises (t8946.t2.a7))
% 32.29/32.56 (step t8946.t2.t5 (cl (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule symm :premises (t8946.t2.t4))
% 32.29/32.56 (step t8946.t2.t6 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t8946.t2.a4))
% 32.29/32.56 (step t8946.t2.t7 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t8946.t2.t6))
% 32.29/32.56 (step t8946.t2.t8 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t8946.t2.a3))
% 32.29/32.56 (step t8946.t2.t9 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8946.t2.t8))
% 32.29/32.56 (step t8946.t2.t10 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t8946.t2.t9 t8946.t2.a2))
% 32.29/32.56 (step t8946.t2.t11 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t8946.t2.a1 t8946.t2.t10))
% 32.29/32.56 (step t8946.t2.t12 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8946.t2.a2))
% 32.29/32.56 (step t8946.t2.t13 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t8946.t2.t3 t8946.t2.t12))
% 32.29/32.56 (step t8946.t2.t14 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8946.t2.a0))
% 32.29/32.56 (step t8946.t2.t15 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t8946.t2.t14))
% 32.29/32.56 (step t8946.t2.t16 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t8946.t2.t7 t8946.t2.t11 t8946.t2.t13 t8946.t2.t15))
% 32.29/32.56 (step t8946.t2.t17 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t8946.t2.a6))
% 32.29/32.56 (step t8946.t2.t18 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t8946.t2.t17))
% 32.29/32.56 (step t8946.t2.t19 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8946.t2.t15))
% 32.29/32.56 (step t8946.t2.t20 (cl (= tptp.e23 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule trans :premises (t8946.t2.t16 t8946.t2.t19))
% 32.29/32.56 (step t8946.t2.t21 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.56 (step t8946.t2.t22 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule cong :premises (t8946.t2.t20 t8946.t2.t21))
% 32.29/32.56 (step t8946.t2.t23 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t8946.t2.a5))
% 32.29/32.56 (step t8946.t2.t24 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule trans :premises (t8946.t2.t18 t8946.t2.t22 t8946.t2.t23))
% 32.29/32.56 (step t8946.t2.t25 (cl (= (tptp.op2 tptp.e23 tptp.e21) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule cong :premises (t8946.t2.t16 t8946.t2.t24))
% 32.29/32.56 (step t8946.t2.t26 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule trans :premises (t8946.t2.t2 t8946.t2.t3 t8946.t2.t5 t8946.t2.t25))
% 32.29/32.56 (step t8946.t2 (cl (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule subproof :discharge (t8946.t2.a0 t8946.t2.a1 t8946.t2.a2 t8946.t2.a3 t8946.t2.a4 t8946.t2.a5 t8946.t2.a6 t8946.t2.a7 t8946.t2.a8))
% 32.29/32.56 (step t8946.t3 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8946.t4 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8946.t5 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8946.t6 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8946.t7 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8946.t8 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8946.t9 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8946.t10 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.56 (step t8946.t11 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8946.t12 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t8946.t2 t8946.t3 t8946.t4 t8946.t5 t8946.t6 t8946.t7 t8946.t8 t8946.t9 t8946.t10 t8946.t11))
% 32.29/32.56 (step t8946.t13 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule reordering :premises (t8946.t12))
% 32.29/32.56 (step t8946.t14 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule contraction :premises (t8946.t13))
% 32.29/32.56 (step t8946.t15 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule resolution :premises (t8946.t1 t8946.t14))
% 32.29/32.56 (step t8946.t16 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t8946.t17 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))))) :rule resolution :premises (t8946.t15 t8946.t16))
% 32.29/32.56 (step t8946.t18 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))))) :rule contraction :premises (t8946.t17))
% 32.29/32.56 (step t8946.t19 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule implies :premises (t8946.t18))
% 32.29/32.56 (step t8946.t20 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule and_neg)
% 32.29/32.56 (step t8946.t21 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t8946.t20 t8946.a8 t8946.a6 t8946.a7 t8946.a2 t8946.a3 t8946.a0 t8946.a4 t8946.a5 t8946.a1))
% 32.29/32.56 (step t8946.t22 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule resolution :premises (t8946.t19 t8946.t21))
% 32.29/32.56 (step t8946 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule subproof :discharge (t8946.a0 t8946.a1 t8946.a2 t8946.a3 t8946.a4 t8946.a5 t8946.a6 t8946.a7 t8946.a8))
% 32.29/32.56 (step t8947 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8948 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8949 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8950 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8951 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8952 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) :rule and_pos)
% 32.29/32.56 (step t8953 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8954 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8955 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8956 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8946 t8947 t8948 t8949 t8950 t8951 t8952 t8953 t8954 t8955))
% 32.29/32.56 (step t8957 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule reordering :premises (t8956))
% 32.29/32.56 (step t8958 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule contraction :premises (t8957))
% 32.29/32.56 (step t8959 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule resolution :premises (t8945 t8958))
% 32.29/32.56 (step t8960 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t8961 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))))) :rule resolution :premises (t8959 t8960))
% 32.29/32.56 (step t8962 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))))) :rule contraction :premises (t8961))
% 32.29/32.56 (step t8963 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule implies :premises (t8962))
% 32.29/32.56 (step t8964 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12)))) :rule resolution :premises (t8944 t8963))
% 32.29/32.56 (step t8965 (cl (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8964))
% 32.29/32.56 (step t8966 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t8967 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8968)
% 32.29/32.56 (assume t8968.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8968.a1 (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))
% 32.29/32.56 (assume t8968.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8968.a3 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8968.a4 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.56 (assume t8968.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t8968.a6 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8968.a7 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8968.a8 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t8968.t1 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t8968.t2)
% 32.29/32.56 (assume t8968.t2.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t8968.t2.a1 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t8968.t2.a2 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t8968.t2.a3 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t8968.t2.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t8968.t2.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t8968.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t8968.t2.a7 (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))
% 32.29/32.56 (assume t8968.t2.a8 (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))
% 32.29/32.56 (step t8968.t2.t1 (cl (= (tptp.op1 tptp.e12 tptp.e12) tptp.e11)) :rule symm :premises (t8968.t2.a8))
% 32.29/32.56 (step t8968.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.h1 tptp.e11))) :rule cong :premises (t8968.t2.t1))
% 32.29/32.56 (step t8968.t2.t3 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8968.t2.a3))
% 32.29/32.56 (step t8968.t2.t4 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t8968.t2.a4))
% 32.29/32.56 (step t8968.t2.t5 (cl (= (tptp.op2 tptp.e21 tptp.e21) tptp.e24)) :rule symm :premises (t8968.t2.a7))
% 32.29/32.56 (step t8968.t2.t6 (cl (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule symm :premises (t8968.t2.t5))
% 32.29/32.56 (step t8968.t2.t7 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t8968.t2.a6))
% 32.29/32.56 (step t8968.t2.t8 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t8968.t2.t7))
% 32.29/32.56 (step t8968.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t8968.t2.a5))
% 32.29/32.56 (step t8968.t2.t10 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t8968.t2.t9))
% 32.29/32.56 (step t8968.t2.t11 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t8968.t2.t4))
% 32.29/32.56 (step t8968.t2.t12 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t8968.t2.t11 t8968.t2.a3))
% 32.29/32.56 (step t8968.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t8968.t2.a2 t8968.t2.t12))
% 32.29/32.56 (step t8968.t2.t14 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t8968.t2.a2))
% 32.29/32.56 (step t8968.t2.t15 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t8968.t2.t14 t8968.t2.t3))
% 32.29/32.56 (step t8968.t2.t16 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8968.t2.a1))
% 32.29/32.56 (step t8968.t2.t17 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t8968.t2.t16))
% 32.29/32.56 (step t8968.t2.t18 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t8968.t2.t10 t8968.t2.t13 t8968.t2.t15 t8968.t2.t17))
% 32.29/32.56 (step t8968.t2.t19 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t8968.t2.t17))
% 32.29/32.56 (step t8968.t2.t20 (cl (= tptp.e23 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule trans :premises (t8968.t2.t18 t8968.t2.t19))
% 32.29/32.56 (step t8968.t2.t21 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.56 (step t8968.t2.t22 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule cong :premises (t8968.t2.t20 t8968.t2.t21))
% 32.29/32.56 (step t8968.t2.t23 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t8968.t2.a0))
% 32.29/32.56 (step t8968.t2.t24 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule trans :premises (t8968.t2.t8 t8968.t2.t22 t8968.t2.t23))
% 32.29/32.56 (step t8968.t2.t25 (cl (= (tptp.op2 tptp.e21 tptp.e21) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule cong :premises (t8968.t2.t24 t8968.t2.t24))
% 32.29/32.56 (step t8968.t2.t26 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule trans :premises (t8968.t2.t2 t8968.t2.t3 t8968.t2.t4 t8968.t2.t6 t8968.t2.t25))
% 32.29/32.56 (step t8968.t2 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule subproof :discharge (t8968.t2.a0 t8968.t2.a1 t8968.t2.a2 t8968.t2.a3 t8968.t2.a4 t8968.t2.a5 t8968.t2.a6 t8968.t2.a7 t8968.t2.a8))
% 32.29/32.56 (step t8968.t3 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8968.t4 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8968.t5 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8968.t6 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8968.t7 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8968.t8 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8968.t9 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8968.t10 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.56 (step t8968.t11 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8968.t12 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))))) :rule resolution :premises (t8968.t2 t8968.t3 t8968.t4 t8968.t5 t8968.t6 t8968.t7 t8968.t8 t8968.t9 t8968.t10 t8968.t11))
% 32.29/32.56 (step t8968.t13 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule reordering :premises (t8968.t12))
% 32.29/32.56 (step t8968.t14 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule contraction :premises (t8968.t13))
% 32.29/32.56 (step t8968.t15 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule resolution :premises (t8968.t1 t8968.t14))
% 32.29/32.56 (step t8968.t16 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t8968.t17 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))))) :rule resolution :premises (t8968.t15 t8968.t16))
% 32.29/32.56 (step t8968.t18 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))))) :rule contraction :premises (t8968.t17))
% 32.29/32.56 (step t8968.t19 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule implies :premises (t8968.t18))
% 32.29/32.56 (step t8968.t20 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule and_neg)
% 32.29/32.56 (step t8968.t21 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)))) :rule resolution :premises (t8968.t20 t8968.a0 t8968.a8 t8968.a6 t8968.a7 t8968.a2 t8968.a3 t8968.a5 t8968.a4 t8968.a1))
% 32.29/32.56 (step t8968.t22 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule resolution :premises (t8968.t19 t8968.t21))
% 32.29/32.56 (step t8968 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule subproof :discharge (t8968.a0 t8968.a1 t8968.a2 t8968.a3 t8968.a4 t8968.a5 t8968.a6 t8968.a7 t8968.a8))
% 32.29/32.56 (step t8969 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8970 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t8971 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8972 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t8973 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) :rule and_pos)
% 32.29/32.56 (step t8974 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t8975 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t8976 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t8977 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t8978 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t8968 t8969 t8970 t8971 t8972 t8973 t8974 t8975 t8976 t8977))
% 32.29/32.56 (step t8979 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule reordering :premises (t8978))
% 32.29/32.56 (step t8980 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule contraction :premises (t8979))
% 32.29/32.56 (step t8981 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule resolution :premises (t8967 t8980))
% 32.29/32.56 (step t8982 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t8983 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))))) :rule resolution :premises (t8981 t8982))
% 32.29/32.56 (step t8984 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))))) :rule contraction :premises (t8983))
% 32.29/32.56 (step t8985 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule implies :premises (t8984))
% 32.29/32.56 (step t8986 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12)))) :rule resolution :premises (t8966 t8985))
% 32.29/32.56 (step t8987 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t8986))
% 32.29/32.56 (step t8988 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14)))) (not (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14)))) (not (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14)))) (not (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t8942 t8943 t8965 t8781 t8824 t8782 t8783 t8987 t8781 t8824 t8782 t8783 t7125 t7126))
% 32.29/32.56 (step t8989 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14)))) (not (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14)))) (not (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14)))) (not (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21)))) :rule contraction :premises (t8988))
% 32.29/32.56 (step t8990 (cl (or (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12)))) :rule and :premises (t1410))
% 32.29/32.56 (step t8991 (cl (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e12))) :rule or :premises (t8990))
% 32.29/32.56 (step t8992 (cl (not (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))))) (not (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.56 (step t8993 (cl (= (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t8994 (cl (not (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) :rule equiv1 :premises (t8993))
% 32.29/32.56 (step t8995 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))))) :rule all_simplify)
% 32.29/32.56 (step t8996 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) :rule refl)
% 32.29/32.56 (step t8997 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.29/32.56 (step t8998 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) :rule cong :premises (t8996 t8997))
% 32.29/32.56 (step t8999 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) true)) :rule all_simplify)
% 32.29/32.56 (step t9000 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) true)) :rule trans :premises (t8998 t8999))
% 32.29/32.56 (step t9001 (cl (= (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) true)) :rule trans :premises (t8995 t9000))
% 32.29/32.56 (step t9002 (cl (= (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t8994 t9001))
% 32.29/32.56 (step t9003 (cl (= (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule refl)
% 32.29/32.56 (step t9004 (cl (= (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))))) :rule cong :premises (t1414 t1415 t9002 t9003))
% 32.29/32.56 (step t9005 (cl (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) :rule and_neg)
% 32.29/32.56 (step t9006 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9007)
% 32.29/32.56 (assume t9007.a0 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.56 (assume t9007.a1 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.56 (assume t9007.a2 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))
% 32.29/32.56 (step t9007.t1 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9007.t2)
% 32.29/32.56 (assume t9007.t2.a0 (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))
% 32.29/32.56 (assume t9007.t2.a1 (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))
% 32.29/32.56 (step t9007.t2.t1 (cl (= (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) false) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t9007.t2.t2 (cl (not (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) false)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule equiv1 :premises (t9007.t2.t1))
% 32.29/32.56 (step t9007.t2.t3 (cl (= (tptp.op1 tptp.e13 tptp.e14) tptp.e12)) :rule symm :premises (t9007.t2.a1))
% 32.29/32.56 (step t9007.t2.t4 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule symm :premises (t9007.t2.t3))
% 32.29/32.56 (step t9007.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) :rule refl)
% 32.29/32.56 (step t9007.t2.t6 (cl (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) :rule cong :premises (t9007.t2.t4 t9007.t2.t5))
% 32.29/32.56 (step t9007.t2.t7 (cl (= (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) false) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t9007.t2.t8 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv2 :premises (t9007.t2.t7))
% 32.29/32.56 (step t9007.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) :rule not_not)
% 32.29/32.56 (step t9007.t2.t10 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) false) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) :rule resolution :premises (t9007.t2.t8 t9007.t2.t9))
% 32.29/32.56 (step t9007.t2.t11 (cl (= (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) false)) :rule resolution :premises (t9007.t2.t10 t9007.t2.a0))
% 32.29/32.56 (step t9007.t2.t12 (cl (= (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)) false)) :rule trans :premises (t9007.t2.t6 t9007.t2.t11))
% 32.29/32.56 (step t9007.t2.t13 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9007.t2.t2 t9007.t2.t12))
% 32.29/32.56 (step t9007.t2 (cl (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule subproof :discharge (t9007.t2.a0 t9007.t2.a1))
% 32.29/32.56 (step t9007.t3 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) :rule and_pos)
% 32.29/32.56 (step t9007.t4 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9007.t5 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))))) :rule resolution :premises (t9007.t2 t9007.t3 t9007.t4))
% 32.29/32.56 (step t9007.t6 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t9007.t5))
% 32.29/32.56 (step t9007.t7 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t9007.t6))
% 32.29/32.56 (step t9007.t8 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9007.t1 t9007.t7))
% 32.29/32.56 (step t9007.t9 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t9007.t10 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t9007.t8 t9007.t9))
% 32.29/32.56 (step t9007.t11 (cl (=> (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t9007.t10))
% 32.29/32.56 (step t9007.t12 (cl (not (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies :premises (t9007.t11))
% 32.29/32.56 (step t9007.t13 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule and_neg)
% 32.29/32.56 (step t9007.t14 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9007.t15)
% 32.29/32.56 (assume t9007.t15.a0 (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))
% 32.29/32.56 (assume t9007.t15.a1 (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))
% 32.29/32.56 (step t9007.t15.t1 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) tptp.e12)) :rule symm :premises (t9007.t15.a1))
% 32.29/32.56 (step t9007.t15.t2 (cl (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule symm :premises (t9007.t15.t1))
% 32.29/32.56 (step t9007.t15.t3 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t9007.t15.a0))
% 32.29/32.56 (step t9007.t15.t4 (cl (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule symm :premises (t9007.t15.t3))
% 32.29/32.56 (step t9007.t15.t5 (cl (= (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e13)) :rule symm :premises (t9007.t15.t4))
% 32.29/32.56 (step t9007.t15.t6 (cl (= tptp.e14 tptp.e14)) :rule refl)
% 32.29/32.56 (step t9007.t15.t7 (cl (= (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14) (tptp.op1 tptp.e13 tptp.e14))) :rule cong :premises (t9007.t15.t5 t9007.t15.t6))
% 32.29/32.56 (step t9007.t15.t8 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule trans :premises (t9007.t15.t2 t9007.t15.t7))
% 32.29/32.56 (step t9007.t15 (cl (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule subproof :discharge (t9007.t15.a0 t9007.t15.a1))
% 32.29/32.56 (step t9007.t16 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.56 (step t9007.t17 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9007.t18 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule resolution :premises (t9007.t15 t9007.t16 t9007.t17))
% 32.29/32.56 (step t9007.t19 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule reordering :premises (t9007.t18))
% 32.29/32.56 (step t9007.t20 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule contraction :premises (t9007.t19))
% 32.29/32.56 (step t9007.t21 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t9007.t14 t9007.t20))
% 32.29/32.56 (step t9007.t22 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule implies_neg2)
% 32.29/32.56 (step t9007.t23 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t9007.t21 t9007.t22))
% 32.29/32.56 (step t9007.t24 (cl (=> (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule contraction :premises (t9007.t23))
% 32.29/32.56 (step t9007.t25 (cl (not (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule implies :premises (t9007.t24))
% 32.29/32.56 (step t9007.t26 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule and_neg)
% 32.29/32.56 (step t9007.t27 (cl (and (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)))) :rule resolution :premises (t9007.t26 t9007.a1 t9007.a0))
% 32.29/32.56 (step t9007.t28 (cl (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14))) :rule resolution :premises (t9007.t25 t9007.t27))
% 32.29/32.56 (step t9007.t29 (cl (and (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e14)))) :rule resolution :premises (t9007.t13 t9007.a2 t9007.t28))
% 32.29/32.56 (step t9007.t30 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9007.t12 t9007.t29))
% 32.29/32.56 (step t9007 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule subproof :discharge (t9007.a0 t9007.a1 t9007.a2))
% 32.29/32.56 (step t9008 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9009 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_pos)
% 32.29/32.56 (step t9010 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) :rule and_pos)
% 32.29/32.56 (step t9011 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))))) :rule resolution :premises (t9007 t9008 t9009 t9010))
% 32.29/32.56 (step t9012 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t9011))
% 32.29/32.56 (step t9013 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t9012))
% 32.29/32.56 (step t9014 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9006 t9013))
% 32.29/32.56 (step t9015 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t9016 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t9014 t9015))
% 32.29/32.56 (step t9017 (cl (=> (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t9016))
% 32.29/32.56 (step t9018 (cl (not (and (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))) (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12))))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies :premises (t9017))
% 32.29/32.56 (step t9019 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9005 t9018))
% 32.29/32.56 (step t9020 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))))) :rule or_neg)
% 32.29/32.56 (step t9021 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))))) :rule or_neg)
% 32.29/32.56 (step t9022 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))))) :rule or_neg)
% 32.29/32.56 (step t9023 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.56 (step t9024 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t9019 t9020 t9021 t9022 t9023))
% 32.29/32.56 (step t9025 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (not (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t9024))
% 32.29/32.56 (step t9026 (cl (or (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t8992 t9004 t9025))
% 32.29/32.56 (step t9027 (cl (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)))) (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule or :premises (t9026))
% 32.29/32.56 (step t9028 (cl (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e12 (tptp.op1 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14)) tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e14 (tptp.op1 tptp.e14 tptp.e14))))) :rule reordering :premises (t9027))
% 32.29/32.56 (step t9029 (cl (not (= (tptp.op1 tptp.e13 tptp.e14) (tptp.op1 tptp.e13 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.56 (step t9030 (cl (not (= tptp.e12 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9028 t9029 t798 t799))
% 32.29/32.56 (step t9031 (cl (or (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule and :premises (t1107))
% 32.29/32.56 (step t9032 (cl (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))) :rule or :premises (t9031))
% 32.29/32.56 (step t9033 (cl (not (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))))) (not (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.56 (step t9034 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t9035 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) :rule equiv1 :premises (t9034))
% 32.29/32.56 (step t9036 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))))) :rule all_simplify)
% 32.29/32.56 (step t9037 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) :rule refl)
% 32.29/32.56 (step t9038 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) :rule all_simplify)
% 32.29/32.56 (step t9039 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) :rule cong :premises (t9037 t9038))
% 32.29/32.56 (step t9040 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) true)) :rule all_simplify)
% 32.29/32.56 (step t9041 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) true)) :rule trans :premises (t9039 t9040))
% 32.29/32.56 (step t9042 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) true)) :rule trans :premises (t9036 t9041))
% 32.29/32.56 (step t9043 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t9035 t9042))
% 32.29/32.56 (step t9044 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule refl)
% 32.29/32.56 (step t9045 (cl (= (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))))) :rule cong :premises (t1111 t9043 t9044))
% 32.29/32.56 (step t9046 (cl (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) :rule and_neg)
% 32.29/32.56 (step t9047 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9048)
% 32.29/32.56 (assume t9048.a0 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.56 (assume t9048.a1 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))
% 32.29/32.56 (step t9048.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9048.t2)
% 32.29/32.56 (assume t9048.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))
% 32.29/32.56 (assume t9048.t2.a1 (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))
% 32.29/32.56 (step t9048.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) false) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t9048.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) false)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule equiv1 :premises (t9048.t2.t1))
% 32.29/32.56 (step t9048.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e14) tptp.e11)) :rule symm :premises (t9048.t2.a1))
% 32.29/32.56 (step t9048.t2.t4 (cl (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule symm :premises (t9048.t2.t3))
% 32.29/32.56 (step t9048.t2.t5 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e14 tptp.e12))) :rule refl)
% 32.29/32.56 (step t9048.t2.t6 (cl (= (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) :rule cong :premises (t9048.t2.t4 t9048.t2.t5))
% 32.29/32.56 (step t9048.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) false) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t9048.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) :rule equiv2 :premises (t9048.t2.t7))
% 32.29/32.56 (step t9048.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) :rule not_not)
% 32.29/32.56 (step t9048.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) false) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) :rule resolution :premises (t9048.t2.t8 t9048.t2.t9))
% 32.29/32.56 (step t9048.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) false)) :rule resolution :premises (t9048.t2.t10 t9048.t2.a0))
% 32.29/32.56 (step t9048.t2.t12 (cl (= (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)) false)) :rule trans :premises (t9048.t2.t6 t9048.t2.t11))
% 32.29/32.56 (step t9048.t2.t13 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t9048.t2.t2 t9048.t2.t12))
% 32.29/32.56 (step t9048.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule subproof :discharge (t9048.t2.a0 t9048.t2.a1))
% 32.29/32.56 (step t9048.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) :rule and_pos)
% 32.29/32.56 (step t9048.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9048.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule resolution :premises (t9048.t2 t9048.t3 t9048.t4))
% 32.29/32.56 (step t9048.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule reordering :premises (t9048.t5))
% 32.29/32.56 (step t9048.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t9048.t6))
% 32.29/32.56 (step t9048.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t9048.t1 t9048.t7))
% 32.29/32.56 (step t9048.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t9048.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t9048.t8 t9048.t9))
% 32.29/32.56 (step t9048.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule contraction :premises (t9048.t10))
% 32.29/32.56 (step t9048.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies :premises (t9048.t11))
% 32.29/32.56 (step t9048.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule and_neg)
% 32.29/32.56 (step t9048.t14 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule resolution :premises (t9048.t13 t9048.a1 t9048.a0))
% 32.29/32.56 (step t9048.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t9048.t12 t9048.t14))
% 32.29/32.56 (step t9048 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule subproof :discharge (t9048.a0 t9048.a1))
% 32.29/32.56 (step t9049 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9050 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) :rule and_pos)
% 32.29/32.56 (step t9051 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))))) :rule resolution :premises (t9048 t9049 t9050))
% 32.29/32.56 (step t9052 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule reordering :premises (t9051))
% 32.29/32.56 (step t9053 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule contraction :premises (t9052))
% 32.29/32.56 (step t9054 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t9047 t9053))
% 32.29/32.56 (step t9055 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t9056 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t9054 t9055))
% 32.29/32.56 (step t9057 (cl (=> (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule contraction :premises (t9056))
% 32.29/32.56 (step t9058 (cl (not (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12))))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies :premises (t9057))
% 32.29/32.56 (step t9059 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t9046 t9058))
% 32.29/32.56 (step t9060 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))))) :rule or_neg)
% 32.29/32.56 (step t9061 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))))) :rule or_neg)
% 32.29/32.56 (step t9062 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule or_neg)
% 32.29/32.56 (step t9063 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t9059 t9060 t9061 t9062))
% 32.29/32.56 (step t9064 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (not (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule contraction :premises (t9063))
% 32.29/32.56 (step t9065 (cl (or (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t9033 t9045 t9064))
% 32.29/32.56 (step t9066 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14))) (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule or :premises (t9065))
% 32.29/32.56 (step t9067 (cl (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)))) :rule reordering :premises (t9066))
% 32.29/32.56 (step t9068 (cl (not (= (tptp.op1 tptp.e14 tptp.e14) (tptp.op1 tptp.e14 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.56 (step t9069 (cl (not (= tptp.e11 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t9067 t9068 t767))
% 32.29/32.56 (step t9070 (cl (or (= tptp.e24 (tptp.h1 tptp.e10)) (= tptp.e24 (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.h1 tptp.e12)) (= tptp.e24 (tptp.h1 tptp.e13)) (= tptp.e24 (tptp.h1 tptp.e14))) (not (= tptp.e24 (tptp.h1 tptp.e11)))) :rule or_neg)
% 32.29/32.56 (step t9071 (cl (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule and_neg)
% 32.29/32.56 (step t9072 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11))) (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9073)
% 32.29/32.56 (assume t9073.a0 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t9073.a1 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (step t9073.t1 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.h1 tptp.e11))) (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9073.t2)
% 32.29/32.56 (assume t9073.t2.a0 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t9073.t2.a1 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (step t9073.t2.t1 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9073.t2.a1))
% 32.29/32.56 (step t9073.t2.t2 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9073.t2.t1))
% 32.29/32.56 (step t9073.t2.t3 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9073.t2.a0))
% 32.29/32.56 (step t9073.t2.t4 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule symm :premises (t9073.t2.t3))
% 32.29/32.56 (step t9073.t2.t5 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9073.t2.t2 t9073.t2.t4))
% 32.29/32.56 (step t9073.t2 (cl (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule subproof :discharge (t9073.t2.a0 t9073.t2.a1))
% 32.29/32.56 (step t9073.t3 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t9073.t4 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9073.t5 (cl (= tptp.e24 (tptp.h1 tptp.e11)) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t9073.t2 t9073.t3 t9073.t4))
% 32.29/32.56 (step t9073.t6 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule reordering :premises (t9073.t5))
% 32.29/32.56 (step t9073.t7 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule contraction :premises (t9073.t6))
% 32.29/32.56 (step t9073.t8 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule resolution :premises (t9073.t1 t9073.t7))
% 32.29/32.56 (step t9073.t9 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.h1 tptp.e11)))) :rule implies_neg2)
% 32.29/32.56 (step t9073.t10 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.h1 tptp.e11))) (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.h1 tptp.e11)))) :rule resolution :premises (t9073.t8 t9073.t9))
% 32.29/32.56 (step t9073.t11 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e24 (tptp.h1 tptp.e11)))) :rule contraction :premises (t9073.t10))
% 32.29/32.56 (step t9073.t12 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule implies :premises (t9073.t11))
% 32.29/32.56 (step t9073.t13 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule and_neg)
% 32.29/32.56 (step t9073.t14 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t9073.t13 t9073.a1 t9073.a0))
% 32.29/32.56 (step t9073.t15 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule resolution :premises (t9073.t12 t9073.t14))
% 32.29/32.56 (step t9073 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule subproof :discharge (t9073.a0 t9073.a1))
% 32.29/32.56 (step t9074 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9075 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t9076 (cl (= tptp.e24 (tptp.h1 tptp.e11)) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))))) :rule resolution :premises (t9073 t9074 t9075))
% 32.29/32.56 (step t9077 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule reordering :premises (t9076))
% 32.29/32.56 (step t9078 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule contraction :premises (t9077))
% 32.29/32.56 (step t9079 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule resolution :premises (t9072 t9078))
% 32.29/32.56 (step t9080 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.h1 tptp.e11)))) :rule implies_neg2)
% 32.29/32.56 (step t9081 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11))) (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11)))) :rule resolution :premises (t9079 t9080))
% 32.29/32.56 (step t9082 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11)))) :rule contraction :premises (t9081))
% 32.29/32.56 (step t9083 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule implies :premises (t9082))
% 32.29/32.56 (step t9084 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (= tptp.e24 (tptp.h1 tptp.e11))) :rule resolution :premises (t9071 t9083))
% 32.29/32.56 (step t9085 (cl (= tptp.e24 (tptp.h1 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))) :rule reordering :premises (t9084))
% 32.29/32.56 (step t9086 (cl (or (= tptp.e23 (tptp.h1 tptp.e10)) (= tptp.e23 (tptp.h1 tptp.e11)) (= tptp.e23 (tptp.h1 tptp.e12)) (= tptp.e23 (tptp.h1 tptp.e13)) (= tptp.e23 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.h1 tptp.e13)))) :rule or_neg)
% 32.29/32.56 (step t9087 (cl (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t9088 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13))) (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9089)
% 32.29/32.56 (assume t9089.a0 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t9089.a1 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t9089.a2 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t9089.a3 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t9089.a4 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t9089.t1 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h1 tptp.e13))) (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9089.t2)
% 32.29/32.56 (assume t9089.t2.a0 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t9089.t2.a1 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t9089.t2.a2 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t9089.t2.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t9089.t2.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (step t9089.t2.t1 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9089.t2.a4))
% 32.29/32.56 (step t9089.t2.t2 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9089.t2.t1))
% 32.29/32.56 (step t9089.t2.t3 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9089.t2.a3))
% 32.29/32.56 (step t9089.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9089.t2.t3))
% 32.29/32.56 (step t9089.t2.t5 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9089.t2.t4 t9089.t2.a2))
% 32.29/32.56 (step t9089.t2.t6 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t9089.t2.a1 t9089.t2.t5))
% 32.29/32.56 (step t9089.t2.t7 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t9089.t2.a1))
% 32.29/32.56 (step t9089.t2.t8 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9089.t2.a2))
% 32.29/32.56 (step t9089.t2.t9 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t9089.t2.t7 t9089.t2.t8))
% 32.29/32.56 (step t9089.t2.t10 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9089.t2.a0))
% 32.29/32.56 (step t9089.t2.t11 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t9089.t2.t10))
% 32.29/32.56 (step t9089.t2.t12 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t9089.t2.t2 t9089.t2.t6 t9089.t2.t9 t9089.t2.t11))
% 32.29/32.56 (step t9089.t2 (cl (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule subproof :discharge (t9089.t2.a0 t9089.t2.a1 t9089.t2.a2 t9089.t2.a3 t9089.t2.a4))
% 32.29/32.56 (step t9089.t3 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t9089.t4 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9089.t5 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t9089.t6 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9089.t7 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t9089.t8 (cl (= tptp.e23 (tptp.h1 tptp.e13)) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))))) :rule resolution :premises (t9089.t2 t9089.t3 t9089.t4 t9089.t5 t9089.t6 t9089.t7))
% 32.29/32.56 (step t9089.t9 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule reordering :premises (t9089.t8))
% 32.29/32.56 (step t9089.t10 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule contraction :premises (t9089.t9))
% 32.29/32.56 (step t9089.t11 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule resolution :premises (t9089.t1 t9089.t10))
% 32.29/32.56 (step t9089.t12 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h1 tptp.e13))) (not (= tptp.e23 (tptp.h1 tptp.e13)))) :rule implies_neg2)
% 32.29/32.56 (step t9089.t13 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h1 tptp.e13))) (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h1 tptp.e13)))) :rule resolution :premises (t9089.t11 t9089.t12))
% 32.29/32.56 (step t9089.t14 (cl (=> (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (= tptp.e23 (tptp.h1 tptp.e13)))) :rule contraction :premises (t9089.t13))
% 32.29/32.56 (step t9089.t15 (cl (not (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule implies :premises (t9089.t14))
% 32.29/32.56 (step t9089.t16 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) :rule and_neg)
% 32.29/32.56 (step t9089.t17 (cl (and (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))) :rule resolution :premises (t9089.t16 t9089.a4 t9089.a2 t9089.a3 t9089.a0 t9089.a1))
% 32.29/32.56 (step t9089.t18 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule resolution :premises (t9089.t15 t9089.t17))
% 32.29/32.56 (step t9089 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule subproof :discharge (t9089.a0 t9089.a1 t9089.a2 t9089.a3 t9089.a4))
% 32.29/32.56 (step t9090 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9091 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t9092 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9093 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t9094 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t9095 (cl (= tptp.e23 (tptp.h1 tptp.e13)) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9089 t9090 t9091 t9092 t9093 t9094))
% 32.29/32.56 (step t9096 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule reordering :premises (t9095))
% 32.29/32.56 (step t9097 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule contraction :premises (t9096))
% 32.29/32.56 (step t9098 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule resolution :premises (t9088 t9097))
% 32.29/32.56 (step t9099 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13))) (not (= tptp.e23 (tptp.h1 tptp.e13)))) :rule implies_neg2)
% 32.29/32.56 (step t9100 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13))) (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13)))) :rule resolution :premises (t9098 t9099))
% 32.29/32.56 (step t9101 (cl (=> (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13)))) :rule contraction :premises (t9100))
% 32.29/32.56 (step t9102 (cl (not (and (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule implies :premises (t9101))
% 32.29/32.56 (step t9103 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e23 (tptp.h1 tptp.e13))) :rule resolution :premises (t9087 t9102))
% 32.29/32.56 (step t9104 (cl (= tptp.e23 (tptp.h1 tptp.e13)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9103))
% 32.29/32.56 (step t9105 (cl (or (= tptp.e22 (tptp.h1 tptp.e10)) (= tptp.e22 (tptp.h1 tptp.e11)) (= tptp.e22 (tptp.h1 tptp.e12)) (= tptp.e22 (tptp.h1 tptp.e13)) (= tptp.e22 (tptp.h1 tptp.e14))) (not (= tptp.e22 (tptp.h1 tptp.e10)))) :rule or_neg)
% 32.29/32.56 (step t9106 (cl (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule and_neg)
% 32.29/32.56 (step t9107 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9108)
% 32.29/32.56 (assume t9108.a0 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t9108.a1 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t9108.a2 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.56 (step t9108.t1 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9108.t2)
% 32.29/32.56 (assume t9108.t2.a0 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.56 (assume t9108.t2.a1 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t9108.t2.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (step t9108.t2.t1 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) :rule symm :premises (t9108.t2.a0))
% 32.29/32.56 (step t9108.t2.t2 (cl (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule symm :premises (t9108.t2.t1))
% 32.29/32.56 (step t9108.t2.t3 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9108.t2.a2))
% 32.29/32.56 (step t9108.t2.t4 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9108.t2.t3))
% 32.29/32.56 (step t9108.t2.t5 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.56 (step t9108.t2.t6 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule cong :premises (t9108.t2.t4 t9108.t2.t5))
% 32.29/32.56 (step t9108.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.h1 tptp.e10))) :rule symm :premises (t9108.t2.a1))
% 32.29/32.56 (step t9108.t2.t8 (cl (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule symm :premises (t9108.t2.t7))
% 32.29/32.56 (step t9108.t2.t9 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.h1 tptp.e10))) :rule symm :premises (t9108.t2.t8))
% 32.29/32.56 (step t9108.t2.t10 (cl (= tptp.e22 (tptp.h1 tptp.e10))) :rule trans :premises (t9108.t2.t2 t9108.t2.t6 t9108.t2.t9))
% 32.29/32.56 (step t9108.t2 (cl (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule subproof :discharge (t9108.t2.a0 t9108.t2.a1 t9108.t2.a2))
% 32.29/32.56 (step t9108.t3 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9108.t4 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9108.t5 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9108.t6 (cl (= tptp.e22 (tptp.h1 tptp.e10)) (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))))) :rule resolution :premises (t9108.t2 t9108.t3 t9108.t4 t9108.t5))
% 32.29/32.56 (step t9108.t7 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule reordering :premises (t9108.t6))
% 32.29/32.56 (step t9108.t8 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule contraction :premises (t9108.t7))
% 32.29/32.56 (step t9108.t9 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule resolution :premises (t9108.t1 t9108.t8))
% 32.29/32.56 (step t9108.t10 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) (not (= tptp.e22 (tptp.h1 tptp.e10)))) :rule implies_neg2)
% 32.29/32.56 (step t9108.t11 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) (=> (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10)))) :rule resolution :premises (t9108.t9 t9108.t10))
% 32.29/32.56 (step t9108.t12 (cl (=> (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10)))) :rule contraction :premises (t9108.t11))
% 32.29/32.56 (step t9108.t13 (cl (not (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule implies :premises (t9108.t12))
% 32.29/32.56 (step t9108.t14 (cl (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule and_neg)
% 32.29/32.56 (step t9108.t15 (cl (and (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))) :rule resolution :premises (t9108.t14 t9108.a2 t9108.a0 t9108.a1))
% 32.29/32.56 (step t9108.t16 (cl (= tptp.e22 (tptp.h1 tptp.e10))) :rule resolution :premises (t9108.t13 t9108.t15))
% 32.29/32.56 (step t9108 (cl (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule subproof :discharge (t9108.a0 t9108.a1 t9108.a2))
% 32.29/32.56 (step t9109 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9110 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9111 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9112 (cl (= tptp.e22 (tptp.h1 tptp.e10)) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))))) :rule resolution :premises (t9108 t9109 t9110 t9111))
% 32.29/32.56 (step t9113 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule reordering :premises (t9112))
% 32.29/32.56 (step t9114 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule contraction :premises (t9113))
% 32.29/32.56 (step t9115 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule resolution :premises (t9107 t9114))
% 32.29/32.56 (step t9116 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) (not (= tptp.e22 (tptp.h1 tptp.e10)))) :rule implies_neg2)
% 32.29/32.56 (step t9117 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10)))) :rule resolution :premises (t9115 t9116))
% 32.29/32.56 (step t9118 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10)))) :rule contraction :premises (t9117))
% 32.29/32.56 (step t9119 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule implies :premises (t9118))
% 32.29/32.56 (step t9120 (cl (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e22 (tptp.h1 tptp.e10))) :rule resolution :premises (t9106 t9119))
% 32.29/32.56 (step t9121 (cl (= tptp.e22 (tptp.h1 tptp.e10)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))) :rule reordering :premises (t9120))
% 32.29/32.56 (step t9122 (cl (or (= tptp.e21 (tptp.h1 tptp.e10)) (= tptp.e21 (tptp.h1 tptp.e11)) (= tptp.e21 (tptp.h1 tptp.e12)) (= tptp.e21 (tptp.h1 tptp.e13)) (= tptp.e21 (tptp.h1 tptp.e14))) (not (= tptp.e21 (tptp.h1 tptp.e12)))) :rule or_neg)
% 32.29/32.56 (step t9123 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t9124 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e21 (tptp.h1 tptp.e12))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9125)
% 32.29/32.56 (assume t9125.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t9125.a1 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t9125.a2 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t9125.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t9125.a4 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t9125.a5 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t9125.a6 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t9125.t1 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e21 (tptp.h1 tptp.e12))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9125.t2)
% 32.29/32.56 (assume t9125.t2.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t9125.t2.a1 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t9125.t2.a2 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t9125.t2.a3 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t9125.t2.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t9125.t2.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t9125.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (step t9125.t2.t1 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t9125.t2.a6))
% 32.29/32.56 (step t9125.t2.t2 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t9125.t2.t1))
% 32.29/32.56 (step t9125.t2.t3 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9125.t2.a5))
% 32.29/32.56 (step t9125.t2.t4 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9125.t2.t3))
% 32.29/32.56 (step t9125.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9125.t2.a4))
% 32.29/32.56 (step t9125.t2.t6 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9125.t2.t5))
% 32.29/32.56 (step t9125.t2.t7 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9125.t2.t6 t9125.t2.a3))
% 32.29/32.56 (step t9125.t2.t8 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t9125.t2.a2 t9125.t2.t7))
% 32.29/32.56 (step t9125.t2.t9 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t9125.t2.a2))
% 32.29/32.56 (step t9125.t2.t10 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9125.t2.a3))
% 32.29/32.56 (step t9125.t2.t11 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t9125.t2.t9 t9125.t2.t10))
% 32.29/32.56 (step t9125.t2.t12 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9125.t2.a1))
% 32.29/32.56 (step t9125.t2.t13 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t9125.t2.t12))
% 32.29/32.56 (step t9125.t2.t14 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t9125.t2.t4 t9125.t2.t8 t9125.t2.t11 t9125.t2.t13))
% 32.29/32.56 (step t9125.t2.t15 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9125.t2.t13))
% 32.29/32.56 (step t9125.t2.t16 (cl (= tptp.e23 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule trans :premises (t9125.t2.t14 t9125.t2.t15))
% 32.29/32.56 (step t9125.t2.t17 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.56 (step t9125.t2.t18 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule cong :premises (t9125.t2.t16 t9125.t2.t17))
% 32.29/32.56 (step t9125.t2.t19 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t9125.t2.a0))
% 32.29/32.56 (step t9125.t2.t20 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule trans :premises (t9125.t2.t2 t9125.t2.t18 t9125.t2.t19))
% 32.29/32.56 (step t9125.t2 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule subproof :discharge (t9125.t2.a0 t9125.t2.a1 t9125.t2.a2 t9125.t2.a3 t9125.t2.a4 t9125.t2.a5 t9125.t2.a6))
% 32.29/32.56 (step t9125.t3 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9125.t4 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t9125.t5 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9125.t6 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t9125.t7 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9125.t8 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t9125.t9 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9125.t10 (cl (= tptp.e21 (tptp.h1 tptp.e12)) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))))) :rule resolution :premises (t9125.t2 t9125.t3 t9125.t4 t9125.t5 t9125.t6 t9125.t7 t9125.t8 t9125.t9))
% 32.29/32.56 (step t9125.t11 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule reordering :premises (t9125.t10))
% 32.29/32.56 (step t9125.t12 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule contraction :premises (t9125.t11))
% 32.29/32.56 (step t9125.t13 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e21 (tptp.h1 tptp.e12))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule resolution :premises (t9125.t1 t9125.t12))
% 32.29/32.56 (step t9125.t14 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e21 (tptp.h1 tptp.e12))) (not (= tptp.e21 (tptp.h1 tptp.e12)))) :rule implies_neg2)
% 32.29/32.56 (step t9125.t15 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e21 (tptp.h1 tptp.e12))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e21 (tptp.h1 tptp.e12)))) :rule resolution :premises (t9125.t13 t9125.t14))
% 32.29/32.56 (step t9125.t16 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (= tptp.e21 (tptp.h1 tptp.e12)))) :rule contraction :premises (t9125.t15))
% 32.29/32.56 (step t9125.t17 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule implies :premises (t9125.t16))
% 32.29/32.56 (step t9125.t18 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule and_neg)
% 32.29/32.56 (step t9125.t19 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t9125.t18 t9125.a0 t9125.a6 t9125.a4 t9125.a5 t9125.a1 t9125.a2 t9125.a3))
% 32.29/32.56 (step t9125.t20 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule resolution :premises (t9125.t17 t9125.t19))
% 32.29/32.56 (step t9125 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule subproof :discharge (t9125.a0 t9125.a1 t9125.a2 t9125.a3 t9125.a4 t9125.a5 t9125.a6))
% 32.29/32.56 (step t9126 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9127 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9128 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t9129 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9130 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9131 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t9132 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t9133 (cl (= tptp.e21 (tptp.h1 tptp.e12)) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9125 t9126 t9127 t9128 t9129 t9130 t9131 t9132))
% 32.29/32.56 (step t9134 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule reordering :premises (t9133))
% 32.29/32.56 (step t9135 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule contraction :premises (t9134))
% 32.29/32.56 (step t9136 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e21 (tptp.h1 tptp.e12))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule resolution :premises (t9124 t9135))
% 32.29/32.56 (step t9137 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e21 (tptp.h1 tptp.e12))) (not (= tptp.e21 (tptp.h1 tptp.e12)))) :rule implies_neg2)
% 32.29/32.56 (step t9138 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e21 (tptp.h1 tptp.e12))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e21 (tptp.h1 tptp.e12)))) :rule resolution :premises (t9136 t9137))
% 32.29/32.56 (step t9139 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e21 (tptp.h1 tptp.e12)))) :rule contraction :premises (t9138))
% 32.29/32.56 (step t9140 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule implies :premises (t9139))
% 32.29/32.56 (step t9141 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= tptp.e21 (tptp.h1 tptp.e12))) :rule resolution :premises (t9123 t9140))
% 32.29/32.56 (step t9142 (cl (= tptp.e21 (tptp.h1 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9141))
% 32.29/32.56 (step t9143 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule resolution :premises (t8989 t8991 t9030 t9032 t9069 t9070 t9085 t9086 t9104 t9105 t9121 t8804 t9122 t9142 t8824))
% 32.29/32.56 (step t9144 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule contraction :premises (t9143))
% 32.29/32.56 (step t9145 (cl (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) :rule resolution :premises (t9144 t8782 t8783 t8781))
% 32.29/32.56 (step t9146 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))))) :rule reordering :premises (t9145))
% 32.29/32.56 (step t9147 (cl (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t9148 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9149)
% 32.29/32.56 (assume t9149.a0 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t9149.a1 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t9149.a2 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.56 (assume t9149.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t9149.a4 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.56 (assume t9149.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t9149.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t9149.a7 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.56 (assume t9149.a8 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t9149.a9 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t9149.a10 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (step t9149.t1 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9149.t2)
% 32.29/32.56 (assume t9149.t2.a0 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.29/32.56 (assume t9149.t2.a1 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.29/32.56 (assume t9149.t2.a2 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.29/32.56 (assume t9149.t2.a3 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.29/32.56 (assume t9149.t2.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.29/32.56 (assume t9149.t2.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.29/32.56 (assume t9149.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.29/32.56 (assume t9149.t2.a7 (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))
% 32.29/32.56 (assume t9149.t2.a8 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.29/32.56 (assume t9149.t2.a9 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.29/32.56 (assume t9149.t2.a10 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.56 (step t9149.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) :rule symm :premises (t9149.t2.a10))
% 32.29/32.56 (step t9149.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.h1 tptp.e10))) :rule cong :premises (t9149.t2.t1))
% 32.29/32.56 (step t9149.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.h1 tptp.e10))) :rule symm :premises (t9149.t2.a9))
% 32.29/32.56 (step t9149.t2.t4 (cl (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule symm :premises (t9149.t2.t3))
% 32.29/32.56 (step t9149.t2.t5 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9149.t2.a4))
% 32.29/32.56 (step t9149.t2.t6 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.29/32.56 (step t9149.t2.t7 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.op2 tptp.e24 tptp.e20))) :rule cong :premises (t9149.t2.t5 t9149.t2.t6))
% 32.29/32.56 (step t9149.t2.t8 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) :rule symm :premises (t9149.t2.a8))
% 32.29/32.56 (step t9149.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e21) tptp.e22)) :rule symm :premises (t9149.t2.a7))
% 32.29/32.56 (step t9149.t2.t10 (cl (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule symm :premises (t9149.t2.t9))
% 32.29/32.56 (step t9149.t2.t11 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t9149.t2.a6))
% 32.29/32.56 (step t9149.t2.t12 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t9149.t2.t11))
% 32.29/32.56 (step t9149.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9149.t2.a5))
% 32.29/32.56 (step t9149.t2.t14 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9149.t2.t13))
% 32.29/32.56 (step t9149.t2.t15 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9149.t2.t5))
% 32.29/32.56 (step t9149.t2.t16 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9149.t2.t15 t9149.t2.a3))
% 32.29/32.56 (step t9149.t2.t17 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t9149.t2.a0 t9149.t2.t16))
% 32.29/32.56 (step t9149.t2.t18 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t9149.t2.a0))
% 32.29/32.56 (step t9149.t2.t19 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9149.t2.a3))
% 32.29/32.56 (step t9149.t2.t20 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t9149.t2.t18 t9149.t2.t19))
% 32.29/32.56 (step t9149.t2.t21 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9149.t2.a2))
% 32.29/32.56 (step t9149.t2.t22 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t9149.t2.t21))
% 32.29/32.56 (step t9149.t2.t23 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t9149.t2.t14 t9149.t2.t17 t9149.t2.t20 t9149.t2.t22))
% 32.29/32.56 (step t9149.t2.t24 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9149.t2.t22))
% 32.29/32.56 (step t9149.t2.t25 (cl (= tptp.e23 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule trans :premises (t9149.t2.t23 t9149.t2.t24))
% 32.29/32.56 (step t9149.t2.t26 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule cong :premises (t9149.t2.t25 t9149.t2.t6))
% 32.29/32.56 (step t9149.t2.t27 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t9149.t2.a1))
% 32.29/32.56 (step t9149.t2.t28 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule trans :premises (t9149.t2.t12 t9149.t2.t26 t9149.t2.t27))
% 32.29/32.56 (step t9149.t2.t29 (cl (= (tptp.op2 tptp.e20 tptp.e21) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule cong :premises (t9149.t2.a0 t9149.t2.t28))
% 32.29/32.56 (step t9149.t2.t30 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule trans :premises (t9149.t2.t2 t9149.t2.t4 t9149.t2.t7 t9149.t2.t8 t9149.t2.t10 t9149.t2.t29))
% 32.29/32.56 (step t9149.t2 (cl (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule subproof :discharge (t9149.t2.a0 t9149.t2.a1 t9149.t2.a2 t9149.t2.a3 t9149.t2.a4 t9149.t2.a5 t9149.t2.a6 t9149.t2.a7 t9149.t2.a8 t9149.t2.a9 t9149.t2.a10))
% 32.29/32.56 (step t9149.t3 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9149.t4 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9149.t5 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t9149.t6 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t9149.t7 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9149.t8 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t9149.t9 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9149.t10 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.56 (step t9149.t11 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9149.t12 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9149.t13 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t9149.t14 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t9149.t2 t9149.t3 t9149.t4 t9149.t5 t9149.t6 t9149.t7 t9149.t8 t9149.t9 t9149.t10 t9149.t11 t9149.t12 t9149.t13))
% 32.29/32.56 (step t9149.t15 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule reordering :premises (t9149.t14))
% 32.29/32.56 (step t9149.t16 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule contraction :premises (t9149.t15))
% 32.29/32.56 (step t9149.t17 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule resolution :premises (t9149.t1 t9149.t16))
% 32.29/32.56 (step t9149.t18 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t9149.t19 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))))) :rule resolution :premises (t9149.t17 t9149.t18))
% 32.29/32.56 (step t9149.t20 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))))) :rule contraction :premises (t9149.t19))
% 32.29/32.56 (step t9149.t21 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule implies :premises (t9149.t20))
% 32.29/32.56 (step t9149.t22 (cl (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule and_neg)
% 32.29/32.56 (step t9149.t23 (cl (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t9149.t22 t9149.a8 t9149.a1 t9149.a10 t9149.a9 t9149.a3 t9149.a5 t9149.a6 t9149.a4 t9149.a7 t9149.a0 t9149.a2))
% 32.29/32.56 (step t9149.t24 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule resolution :premises (t9149.t21 t9149.t23))
% 32.29/32.56 (step t9149 (cl (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule subproof :discharge (t9149.a0 t9149.a1 t9149.a2 t9149.a3 t9149.a4 t9149.a5 t9149.a6 t9149.a7 t9149.a8 t9149.a9 t9149.a10))
% 32.29/32.56 (step t9150 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9151 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9152 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t9153 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9154 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) :rule and_pos)
% 32.29/32.56 (step t9155 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.29/32.56 (step t9156 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9157 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.29/32.56 (step t9158 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.29/32.56 (step t9159 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.29/32.56 (step t9160 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.29/32.56 (step t9161 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9149 t9150 t9151 t9152 t9153 t9154 t9155 t9156 t9157 t9158 t9159 t9160))
% 32.29/32.56 (step t9162 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule reordering :premises (t9161))
% 32.29/32.56 (step t9163 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule contraction :premises (t9162))
% 32.29/32.56 (step t9164 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule resolution :premises (t9148 t9163))
% 32.29/32.56 (step t9165 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t9166 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))))) :rule resolution :premises (t9164 t9165))
% 32.29/32.56 (step t9167 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))))) :rule contraction :premises (t9166))
% 32.29/32.56 (step t9168 (cl (not (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule implies :premises (t9167))
% 32.29/32.56 (step t9169 (cl (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12)))) :rule resolution :premises (t9147 t9168))
% 32.29/32.56 (step t9170 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9169))
% 32.29/32.56 (step t9171 (cl (not (= (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))))) (not (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_pos2)
% 32.29/32.56 (step t9172 (cl (= (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) true) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t9173 (cl (not (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) true)) (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) :rule equiv1 :premises (t9172))
% 32.29/32.56 (step t9174 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))))) :rule all_simplify)
% 32.29/32.56 (step t9175 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) :rule refl)
% 32.29/32.56 (step t9176 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) :rule all_simplify)
% 32.29/32.56 (step t9177 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) :rule cong :premises (t9175 t9176))
% 32.29/32.56 (step t9178 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) true)) :rule all_simplify)
% 32.29/32.56 (step t9179 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) true)) :rule trans :premises (t9177 t9178))
% 32.29/32.56 (step t9180 (cl (= (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) true)) :rule trans :premises (t9174 t9179))
% 32.29/32.56 (step t9181 (cl (= (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9173 t9180))
% 32.29/32.56 (step t9182 (cl (= (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule refl)
% 32.29/32.56 (step t9183 (cl (= (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))))) :rule cong :premises (t7583 t9181 t9182))
% 32.29/32.56 (step t9184 (cl (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) :rule and_neg)
% 32.29/32.56 (step t9185 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9186)
% 32.29/32.56 (assume t9186.a0 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.56 (assume t9186.a1 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))
% 32.29/32.56 (step t9186.t1 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9186.t2)
% 32.29/32.56 (assume t9186.t2.a0 (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))
% 32.29/32.56 (assume t9186.t2.a1 (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))
% 32.29/32.56 (step t9186.t2.t1 (cl (= (= (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) false) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t9186.t2.t2 (cl (not (= (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) false)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule equiv1 :premises (t9186.t2.t1))
% 32.29/32.56 (step t9186.t2.t3 (cl (= (tptp.op1 tptp.e14 tptp.e12) tptp.e10)) :rule symm :premises (t9186.t2.a1))
% 32.29/32.56 (step t9186.t2.t4 (cl (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule symm :premises (t9186.t2.t3))
% 32.29/32.56 (step t9186.t2.t5 (cl (= (tptp.op1 tptp.e13 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) :rule refl)
% 32.29/32.56 (step t9186.t2.t6 (cl (= (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) :rule cong :premises (t9186.t2.t4 t9186.t2.t5))
% 32.29/32.56 (step t9186.t2.t7 (cl (= (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) false) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv_simplify)
% 32.29/32.56 (step t9186.t2.t8 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) false) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) :rule equiv2 :premises (t9186.t2.t7))
% 32.29/32.56 (step t9186.t2.t9 (cl (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) :rule not_not)
% 32.29/32.56 (step t9186.t2.t10 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) false) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) :rule resolution :premises (t9186.t2.t8 t9186.t2.t9))
% 32.29/32.56 (step t9186.t2.t11 (cl (= (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) false)) :rule resolution :premises (t9186.t2.t10 t9186.t2.a0))
% 32.29/32.56 (step t9186.t2.t12 (cl (= (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)) false)) :rule trans :premises (t9186.t2.t6 t9186.t2.t11))
% 32.29/32.56 (step t9186.t2.t13 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9186.t2.t2 t9186.t2.t12))
% 32.29/32.56 (step t9186.t2 (cl (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule subproof :discharge (t9186.t2.a0 t9186.t2.a1))
% 32.29/32.56 (step t9186.t3 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) :rule and_pos)
% 32.29/32.56 (step t9186.t4 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t9186.t5 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule resolution :premises (t9186.t2 t9186.t3 t9186.t4))
% 32.29/32.56 (step t9186.t6 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t9186.t5))
% 32.29/32.56 (step t9186.t7 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t9186.t6))
% 32.29/32.56 (step t9186.t8 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9186.t1 t9186.t7))
% 32.29/32.56 (step t9186.t9 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t9186.t10 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t9186.t8 t9186.t9))
% 32.29/32.56 (step t9186.t11 (cl (=> (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t9186.t10))
% 32.29/32.56 (step t9186.t12 (cl (not (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies :premises (t9186.t11))
% 32.29/32.56 (step t9186.t13 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule and_neg)
% 32.29/32.56 (step t9186.t14 (cl (and (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t9186.t13 t9186.a1 t9186.a0))
% 32.29/32.56 (step t9186.t15 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9186.t12 t9186.t14))
% 32.29/32.56 (step t9186 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule subproof :discharge (t9186.a0 t9186.a1))
% 32.29/32.56 (step t9187 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) :rule and_pos)
% 32.29/32.56 (step t9188 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) :rule and_pos)
% 32.29/32.56 (step t9189 (cl (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))))) :rule resolution :premises (t9186 t9187 t9188))
% 32.29/32.56 (step t9190 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule reordering :premises (t9189))
% 32.29/32.56 (step t9191 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule contraction :premises (t9190))
% 32.29/32.56 (step t9192 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9185 t9191))
% 32.29/32.56 (step t9193 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule implies_neg2)
% 32.29/32.56 (step t9194 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t9192 t9193))
% 32.29/32.56 (step t9195 (cl (=> (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t9194))
% 32.29/32.56 (step t9196 (cl (not (and (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12))))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule implies :premises (t9195))
% 32.29/32.56 (step t9197 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule resolution :premises (t9184 t9196))
% 32.29/32.56 (step t9198 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))))) :rule or_neg)
% 32.29/32.56 (step t9199 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))))) :rule or_neg)
% 32.29/32.56 (step t9200 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (not (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule or_neg)
% 32.29/32.56 (step t9201 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t9197 t9198 t9199 t9200))
% 32.29/32.56 (step t9202 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule contraction :premises (t9201))
% 32.29/32.56 (step t9203 (cl (or (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))))) :rule resolution :premises (t9171 t9183 t9202))
% 32.29/32.56 (step t9204 (cl (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12)))) :rule or :premises (t9203))
% 32.29/32.56 (step t9205 (cl (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)) (not (= tptp.e10 (tptp.op1 tptp.e13 tptp.e12))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule reordering :premises (t9204))
% 32.29/32.56 (step t9206 (cl (not (= (tptp.op1 tptp.e14 tptp.e12) (tptp.op1 tptp.e13 tptp.e12)))) :rule and :premises (t1360))
% 32.29/32.56 (step t9207 (cl (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)))) :rule resolution :premises (t8753 t7164 t7165 t7803 t767 t7901 t3575 t4363 t4365 t9146 t9170 t8781 t8824 t8782 t8804 t8783 t9205 t9206))
% 32.29/32.56 (step t9208 (cl (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21)))) :rule contraction :premises (t9207))
% 32.29/32.56 (step t9209 (cl (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.29/32.56 (step t9210 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.29/32.56 (anchor :step t9211)
% 32.29/32.56 (assume t9211.a0 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))
% 32.36/32.56 (assume t9211.a1 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9211.a2 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9211.a3 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))
% 32.36/32.56 (assume t9211.a4 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9211.a5 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9211.a6 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (step t9211.t1 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9211.t2)
% 32.36/32.56 (assume t9211.t2.a0 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9211.t2.a1 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9211.t2.a2 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (assume t9211.t2.a3 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9211.t2.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9211.t2.a5 (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))
% 32.36/32.56 (assume t9211.t2.a6 (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))
% 32.36/32.56 (step t9211.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e13) tptp.e14)) :rule symm :premises (t9211.t2.a6))
% 32.36/32.56 (step t9211.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.h1 tptp.e14))) :rule cong :premises (t9211.t2.t1))
% 32.36/32.56 (step t9211.t2.t3 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t9211.t2.a3))
% 32.36/32.56 (step t9211.t2.t4 (cl (= (tptp.op2 tptp.e24 tptp.e23) tptp.e20)) :rule symm :premises (t9211.t2.a5))
% 32.36/32.56 (step t9211.t2.t5 (cl (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule symm :premises (t9211.t2.t4))
% 32.36/32.56 (step t9211.t2.t6 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9211.t2.a1))
% 32.36/32.56 (step t9211.t2.t7 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9211.t2.t6))
% 32.36/32.56 (step t9211.t2.t8 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9211.t2.t7 t9211.t2.a0))
% 32.36/32.56 (step t9211.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9211.t2.a4))
% 32.36/32.56 (step t9211.t2.t10 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9211.t2.t9))
% 32.36/32.56 (step t9211.t2.t11 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t9211.t2.a3 t9211.t2.t8))
% 32.36/32.56 (step t9211.t2.t12 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9211.t2.a0))
% 32.36/32.56 (step t9211.t2.t13 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t9211.t2.t3 t9211.t2.t12))
% 32.36/32.56 (step t9211.t2.t14 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9211.t2.a2))
% 32.36/32.56 (step t9211.t2.t15 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t9211.t2.t14))
% 32.36/32.56 (step t9211.t2.t16 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t9211.t2.t10 t9211.t2.t11 t9211.t2.t13 t9211.t2.t15))
% 32.36/32.56 (step t9211.t2.t17 (cl (= (tptp.op2 tptp.e24 tptp.e23) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule cong :premises (t9211.t2.t8 t9211.t2.t16))
% 32.36/32.56 (step t9211.t2.t18 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule trans :premises (t9211.t2.t2 t9211.t2.t3 t9211.t2.t5 t9211.t2.t17))
% 32.36/32.56 (step t9211.t2 (cl (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule subproof :discharge (t9211.t2.a0 t9211.t2.a1 t9211.t2.a2 t9211.t2.a3 t9211.t2.a4 t9211.t2.a5 t9211.t2.a6))
% 32.36/32.56 (step t9211.t3 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9211.t4 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9211.t5 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9211.t6 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9211.t7 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9211.t8 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule and_pos)
% 32.36/32.56 (step t9211.t9 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9211.t10 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))))) :rule resolution :premises (t9211.t2 t9211.t3 t9211.t4 t9211.t5 t9211.t6 t9211.t7 t9211.t8 t9211.t9))
% 32.36/32.56 (step t9211.t11 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9211.t10))
% 32.36/32.56 (step t9211.t12 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule contraction :premises (t9211.t11))
% 32.36/32.56 (step t9211.t13 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule resolution :premises (t9211.t1 t9211.t12))
% 32.36/32.56 (step t9211.t14 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))))) :rule implies_neg2)
% 32.36/32.56 (step t9211.t15 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9211.t13 t9211.t14))
% 32.36/32.56 (step t9211.t16 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))))) :rule contraction :premises (t9211.t15))
% 32.36/32.56 (step t9211.t17 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule implies :premises (t9211.t16))
% 32.36/32.56 (step t9211.t18 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) :rule and_neg)
% 32.36/32.56 (step t9211.t19 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)))) :rule resolution :premises (t9211.t18 t9211.a5 t9211.a1 t9211.a6 t9211.a4 t9211.a2 t9211.a3 t9211.a0))
% 32.36/32.56 (step t9211.t20 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule resolution :premises (t9211.t17 t9211.t19))
% 32.36/32.56 (step t9211 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule subproof :discharge (t9211.a0 t9211.a1 t9211.a2 t9211.a3 t9211.a4 t9211.a5 t9211.a6))
% 32.36/32.56 (step t9212 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9213 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9214 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9215 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) :rule and_pos)
% 32.36/32.56 (step t9216 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9217 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9218 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9219 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9211 t9212 t9213 t9214 t9215 t9216 t9217 t9218))
% 32.36/32.56 (step t9220 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9219))
% 32.36/32.56 (step t9221 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule contraction :premises (t9220))
% 32.36/32.56 (step t9222 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule resolution :premises (t9210 t9221))
% 32.36/32.56 (step t9223 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))))) :rule implies_neg2)
% 32.36/32.56 (step t9224 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9222 t9223))
% 32.36/32.56 (step t9225 (cl (=> (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))))) :rule contraction :premises (t9224))
% 32.36/32.56 (step t9226 (cl (not (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule implies :premises (t9225))
% 32.36/32.56 (step t9227 (cl (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13)))) :rule resolution :premises (t9209 t9226))
% 32.36/32.56 (step t9228 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e13))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9227))
% 32.36/32.56 (step t9229 (cl (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))) :rule resolution :premises (t9208 t7685 t7686 t9228 t8781 t8782 t8783))
% 32.36/32.56 (step t9230 (cl (and (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e14)))) (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e11 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23)))) :rule contraction :premises (t9229))
% 32.36/32.56 (step t9231 (cl (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e14))) :rule or :premises (t3270))
% 32.36/32.56 (step t9232 (cl (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14))) :rule or :premises (t7691))
% 32.36/32.56 (step t9233 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.36/32.56 (step t9234 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9235)
% 32.36/32.56 (assume t9235.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9235.a1 (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))
% 32.36/32.56 (assume t9235.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9235.a3 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9235.a4 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.36/32.56 (assume t9235.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9235.a6 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9235.a7 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9235.a8 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (step t9235.t1 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9235.t2)
% 32.36/32.56 (assume t9235.t2.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9235.t2.a1 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (assume t9235.t2.a2 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9235.t2.a3 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9235.t2.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9235.t2.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9235.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9235.t2.a7 (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)))
% 32.36/32.56 (assume t9235.t2.a8 (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))
% 32.36/32.56 (step t9235.t2.t1 (cl (= (tptp.op1 tptp.e12 tptp.e14) tptp.e13)) :rule symm :premises (t9235.t2.a8))
% 32.36/32.56 (step t9235.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.h1 tptp.e13))) :rule cong :premises (t9235.t2.t1))
% 32.36/32.56 (step t9235.t2.t3 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9235.t2.a1))
% 32.36/32.56 (step t9235.t2.t4 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t9235.t2.t3))
% 32.36/32.56 (step t9235.t2.t5 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9235.t2.t4))
% 32.36/32.56 (step t9235.t2.t6 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t9235.t2.a2))
% 32.36/32.56 (step t9235.t2.t7 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9235.t2.a3))
% 32.36/32.56 (step t9235.t2.t8 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t9235.t2.t6 t9235.t2.t7))
% 32.36/32.56 (step t9235.t2.t9 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule symm :premises (t9235.t2.t8))
% 32.36/32.56 (step t9235.t2.t10 (cl (= tptp.e20 (tptp.h1 tptp.e14))) :rule symm :premises (t9235.t2.t6))
% 32.36/32.56 (step t9235.t2.t11 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9235.t2.a4))
% 32.36/32.56 (step t9235.t2.t12 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9235.t2.t11))
% 32.36/32.56 (step t9235.t2.t13 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9235.t2.t12 t9235.t2.a3))
% 32.36/32.56 (step t9235.t2.t14 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t9235.t2.t10 t9235.t2.t13))
% 32.36/32.56 (step t9235.t2.t15 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9235.t2.t14))
% 32.36/32.56 (step t9235.t2.t16 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9235.t2.a5))
% 32.36/32.56 (step t9235.t2.t17 (cl (= (tptp.op2 tptp.e21 tptp.e20) tptp.e23)) :rule symm :premises (t9235.t2.a7))
% 32.36/32.56 (step t9235.t2.t18 (cl (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule symm :premises (t9235.t2.t17))
% 32.36/32.56 (step t9235.t2.t19 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t9235.t2.a6))
% 32.36/32.56 (step t9235.t2.t20 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t9235.t2.t19))
% 32.36/32.56 (step t9235.t2.t21 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9235.t2.t16))
% 32.36/32.56 (step t9235.t2.t22 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t9235.t2.t21 t9235.t2.t14 t9235.t2.t8 t9235.t2.t4))
% 32.36/32.56 (step t9235.t2.t23 (cl (= tptp.e23 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule trans :premises (t9235.t2.t22 t9235.t2.t5))
% 32.36/32.56 (step t9235.t2.t24 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.36/32.56 (step t9235.t2.t25 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule cong :premises (t9235.t2.t23 t9235.t2.t24))
% 32.36/32.56 (step t9235.t2.t26 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t9235.t2.a0))
% 32.36/32.56 (step t9235.t2.t27 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule trans :premises (t9235.t2.t20 t9235.t2.t25 t9235.t2.t26))
% 32.36/32.56 (step t9235.t2.t28 (cl (= (tptp.op2 tptp.e21 tptp.e20) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule cong :premises (t9235.t2.t27 t9235.t2.t10))
% 32.36/32.56 (step t9235.t2.t29 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule trans :premises (t9235.t2.t2 t9235.t2.t5 t9235.t2.t9 t9235.t2.t15 t9235.t2.t16 t9235.t2.t18 t9235.t2.t28))
% 32.36/32.56 (step t9235.t2 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule subproof :discharge (t9235.t2.a0 t9235.t2.a1 t9235.t2.a2 t9235.t2.a3 t9235.t2.a4 t9235.t2.a5 t9235.t2.a6 t9235.t2.a7 t9235.t2.a8))
% 32.36/32.56 (step t9235.t3 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9235.t4 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9235.t5 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9235.t6 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9235.t7 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9235.t8 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9235.t9 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9235.t10 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9235.t11 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9235.t12 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))))) :rule resolution :premises (t9235.t2 t9235.t3 t9235.t4 t9235.t5 t9235.t6 t9235.t7 t9235.t8 t9235.t9 t9235.t10 t9235.t11))
% 32.36/32.56 (step t9235.t13 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule reordering :premises (t9235.t12))
% 32.36/32.56 (step t9235.t14 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule contraction :premises (t9235.t13))
% 32.36/32.56 (step t9235.t15 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule resolution :premises (t9235.t1 t9235.t14))
% 32.36/32.56 (step t9235.t16 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))))) :rule implies_neg2)
% 32.36/32.56 (step t9235.t17 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))))) :rule resolution :premises (t9235.t15 t9235.t16))
% 32.36/32.56 (step t9235.t18 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))))) :rule contraction :premises (t9235.t17))
% 32.36/32.56 (step t9235.t19 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule implies :premises (t9235.t18))
% 32.36/32.56 (step t9235.t20 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule and_neg)
% 32.36/32.56 (step t9235.t21 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)))) :rule resolution :premises (t9235.t20 t9235.a0 t9235.a8 t9235.a6 t9235.a7 t9235.a2 t9235.a3 t9235.a5 t9235.a4 t9235.a1))
% 32.36/32.56 (step t9235.t22 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule resolution :premises (t9235.t19 t9235.t21))
% 32.36/32.56 (step t9235 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule subproof :discharge (t9235.a0 t9235.a1 t9235.a2 t9235.a3 t9235.a4 t9235.a5 t9235.a6 t9235.a7 t9235.a8))
% 32.36/32.56 (step t9236 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9237 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9238 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9239 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9240 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9241 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9242 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9243 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9244 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9245 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9235 t9236 t9237 t9238 t9239 t9240 t9241 t9242 t9243 t9244))
% 32.36/32.56 (step t9246 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule reordering :premises (t9245))
% 32.36/32.56 (step t9247 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule contraction :premises (t9246))
% 32.36/32.56 (step t9248 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule resolution :premises (t9234 t9247))
% 32.36/32.56 (step t9249 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))))) :rule implies_neg2)
% 32.36/32.56 (step t9250 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))))) :rule resolution :premises (t9248 t9249))
% 32.36/32.56 (step t9251 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))))) :rule contraction :premises (t9250))
% 32.36/32.56 (step t9252 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule implies :premises (t9251))
% 32.36/32.56 (step t9253 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14)))) :rule resolution :premises (t9233 t9252))
% 32.36/32.56 (step t9254 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9253))
% 32.36/32.56 (step t9255 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.36/32.56 (step t9256 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9257)
% 32.36/32.56 (assume t9257.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.36/32.56 (assume t9257.a1 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.36/32.56 (assume t9257.a2 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9257.a3 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))
% 32.36/32.56 (assume t9257.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9257.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9257.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9257.a7 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9257.a8 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9257.a9 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (step t9257.t1 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9257.t2)
% 32.36/32.56 (assume t9257.t2.a0 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9257.t2.a1 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9257.t2.a2 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9257.t2.a3 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (assume t9257.t2.a4 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9257.t2.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9257.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9257.t2.a7 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.36/32.56 (assume t9257.t2.a8 (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))))
% 32.36/32.56 (assume t9257.t2.a9 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))
% 32.36/32.56 (step t9257.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13)) :rule symm :premises (t9257.t2.a9))
% 32.36/32.56 (step t9257.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.h1 tptp.e13))) :rule cong :premises (t9257.t2.t1))
% 32.36/32.56 (step t9257.t2.t3 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9257.t2.a3))
% 32.36/32.56 (step t9257.t2.t4 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t9257.t2.t3))
% 32.36/32.56 (step t9257.t2.t5 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9257.t2.t4))
% 32.36/32.56 (step t9257.t2.t6 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t9257.t2.a4))
% 32.36/32.56 (step t9257.t2.t7 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9257.t2.a0))
% 32.36/32.56 (step t9257.t2.t8 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t9257.t2.t6 t9257.t2.t7))
% 32.36/32.56 (step t9257.t2.t9 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule symm :premises (t9257.t2.t8))
% 32.36/32.56 (step t9257.t2.t10 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9257.t2.a1))
% 32.36/32.56 (step t9257.t2.t11 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9257.t2.t10))
% 32.36/32.56 (step t9257.t2.t12 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9257.t2.t11 t9257.t2.a0))
% 32.36/32.56 (step t9257.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t9257.t2.a4 t9257.t2.t12))
% 32.36/32.56 (step t9257.t2.t14 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9257.t2.t13))
% 32.36/32.56 (step t9257.t2.t15 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9257.t2.a5))
% 32.36/32.56 (step t9257.t2.t16 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) tptp.e23)) :rule symm :premises (t9257.t2.a8))
% 32.36/32.56 (step t9257.t2.t17 (cl (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule symm :premises (t9257.t2.t16))
% 32.36/32.56 (step t9257.t2.t18 (cl (= tptp.e24 tptp.e24)) :rule refl)
% 32.36/32.56 (step t9257.t2.t19 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t9257.t2.a7))
% 32.36/32.56 (step t9257.t2.t20 (cl (= (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)) (tptp.op2 tptp.e24 tptp.e21))) :rule cong :premises (t9257.t2.t18 t9257.t2.t19))
% 32.36/32.56 (step t9257.t2.t21 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t9257.t2.a6))
% 32.36/32.56 (step t9257.t2.t22 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t9257.t2.t21))
% 32.36/32.56 (step t9257.t2.t23 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9257.t2.t15))
% 32.36/32.56 (step t9257.t2.t24 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t9257.t2.t23 t9257.t2.t13 t9257.t2.t8 t9257.t2.t4))
% 32.36/32.56 (step t9257.t2.t25 (cl (= tptp.e23 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule trans :premises (t9257.t2.t24 t9257.t2.t5))
% 32.36/32.56 (step t9257.t2.t26 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.36/32.56 (step t9257.t2.t27 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule cong :premises (t9257.t2.t25 t9257.t2.t26))
% 32.36/32.56 (step t9257.t2.t28 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t9257.t2.a2))
% 32.36/32.56 (step t9257.t2.t29 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule trans :premises (t9257.t2.t22 t9257.t2.t27 t9257.t2.t28))
% 32.36/32.56 (step t9257.t2.t30 (cl (= (tptp.op2 tptp.e24 tptp.e21) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule cong :premises (t9257.t2.t12 t9257.t2.t29))
% 32.36/32.56 (step t9257.t2.t31 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule trans :premises (t9257.t2.t2 t9257.t2.t5 t9257.t2.t9 t9257.t2.t14 t9257.t2.t15 t9257.t2.t17 t9257.t2.t20 t9257.t2.t30))
% 32.36/32.56 (step t9257.t2 (cl (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule subproof :discharge (t9257.t2.a0 t9257.t2.a1 t9257.t2.a2 t9257.t2.a3 t9257.t2.a4 t9257.t2.a5 t9257.t2.a6 t9257.t2.a7 t9257.t2.a8 t9257.t2.a9))
% 32.36/32.56 (step t9257.t3 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9257.t4 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9257.t5 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9257.t6 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9257.t7 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9257.t8 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9257.t9 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9257.t10 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9257.t11 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.36/32.56 (step t9257.t12 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.36/32.56 (step t9257.t13 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t9257.t2 t9257.t3 t9257.t4 t9257.t5 t9257.t6 t9257.t7 t9257.t8 t9257.t9 t9257.t10 t9257.t11 t9257.t12))
% 32.36/32.56 (step t9257.t14 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule reordering :premises (t9257.t13))
% 32.36/32.56 (step t9257.t15 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule contraction :premises (t9257.t14))
% 32.36/32.56 (step t9257.t16 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule resolution :premises (t9257.t1 t9257.t15))
% 32.36/32.56 (step t9257.t17 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))))) :rule implies_neg2)
% 32.36/32.56 (step t9257.t18 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))))) :rule resolution :premises (t9257.t16 t9257.t17))
% 32.36/32.56 (step t9257.t19 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))))) :rule contraction :premises (t9257.t18))
% 32.36/32.56 (step t9257.t20 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule implies :premises (t9257.t19))
% 32.36/32.56 (step t9257.t21 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule and_neg)
% 32.36/32.56 (step t9257.t22 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t9257.t21 t9257.a8 t9257.a4 t9257.a2 t9257.a9 t9257.a7 t9257.a5 t9257.a6 t9257.a0 t9257.a1 t9257.a3))
% 32.36/32.56 (step t9257.t23 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule resolution :premises (t9257.t20 t9257.t22))
% 32.36/32.56 (step t9257 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule subproof :discharge (t9257.a0 t9257.a1 t9257.a2 t9257.a3 t9257.a4 t9257.a5 t9257.a6 t9257.a7 t9257.a8 t9257.a9))
% 32.36/32.56 (step t9258 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9259 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) :rule and_pos)
% 32.36/32.56 (step t9260 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9261 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.36/32.56 (step t9262 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9263 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9264 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9265 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9266 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9267 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9268 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9257 t9258 t9259 t9260 t9261 t9262 t9263 t9264 t9265 t9266 t9267))
% 32.36/32.56 (step t9269 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule reordering :premises (t9268))
% 32.36/32.56 (step t9270 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule contraction :premises (t9269))
% 32.36/32.56 (step t9271 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule resolution :premises (t9256 t9270))
% 32.36/32.56 (step t9272 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))))) :rule implies_neg2)
% 32.36/32.56 (step t9273 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))))) :rule resolution :premises (t9271 t9272))
% 32.36/32.56 (step t9274 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))))) :rule contraction :premises (t9273))
% 32.36/32.56 (step t9275 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule implies :premises (t9274))
% 32.36/32.56 (step t9276 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12)))) :rule resolution :premises (t9255 t9275))
% 32.36/32.56 (step t9277 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e24 (tptp.op2 tptp.e24 tptp.e24)))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9276))
% 32.36/32.56 (step t9278 (cl (not (= (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))))) (not (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_pos2)
% 32.36/32.56 (step t9279 (cl (= (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule refl)
% 32.36/32.56 (step t9280 (cl (= (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))))) :rule cong :premises (t5268 t5088 t9279))
% 32.36/32.56 (step t9281 (cl (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule and_neg)
% 32.36/32.56 (step t9282 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9283)
% 32.36/32.56 (assume t9283.a0 (not (= tptp.e11 tptp.e13)))
% 32.36/32.56 (assume t9283.a1 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))
% 32.36/32.56 (step t9283.t1 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9283.t2)
% 32.36/32.56 (assume t9283.t2.a0 (not (= tptp.e11 tptp.e13)))
% 32.36/32.56 (assume t9283.t2.a1 (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))
% 32.36/32.56 (step t9283.t2.t1 (cl (= (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) false) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule equiv_simplify)
% 32.36/32.56 (step t9283.t2.t2 (cl (not (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) false)) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule equiv1 :premises (t9283.t2.t1))
% 32.36/32.56 (step t9283.t2.t3 (cl (= tptp.e11 tptp.e11)) :rule refl)
% 32.36/32.56 (step t9283.t2.t4 (cl (= (tptp.op1 tptp.e11 tptp.e12) tptp.e13)) :rule symm :premises (t9283.t2.a1))
% 32.36/32.56 (step t9283.t2.t5 (cl (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e11 tptp.e13))) :rule cong :premises (t9283.t2.t3 t9283.t2.t4))
% 32.36/32.56 (step t9283.t2.t6 (cl (= (= (= tptp.e11 tptp.e13) false) (not (= tptp.e11 tptp.e13)))) :rule equiv_simplify)
% 32.36/32.56 (step t9283.t2.t7 (cl (= (= tptp.e11 tptp.e13) false) (not (not (= tptp.e11 tptp.e13)))) :rule equiv2 :premises (t9283.t2.t6))
% 32.36/32.56 (step t9283.t2.t8 (cl (not (not (not (= tptp.e11 tptp.e13)))) (= tptp.e11 tptp.e13)) :rule not_not)
% 32.36/32.56 (step t9283.t2.t9 (cl (= (= tptp.e11 tptp.e13) false) (= tptp.e11 tptp.e13)) :rule resolution :premises (t9283.t2.t7 t9283.t2.t8))
% 32.36/32.56 (step t9283.t2.t10 (cl (= (= tptp.e11 tptp.e13) false)) :rule resolution :premises (t9283.t2.t9 t9283.t2.a0))
% 32.36/32.56 (step t9283.t2.t11 (cl (= (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)) false)) :rule trans :premises (t9283.t2.t5 t9283.t2.t10))
% 32.36/32.56 (step t9283.t2.t12 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t9283.t2.t2 t9283.t2.t11))
% 32.36/32.56 (step t9283.t2 (cl (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule subproof :discharge (t9283.t2.a0 t9283.t2.a1))
% 32.36/32.56 (step t9283.t3 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9283.t4 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.36/32.56 (step t9283.t5 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t9283.t2 t9283.t3 t9283.t4))
% 32.36/32.56 (step t9283.t6 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule reordering :premises (t9283.t5))
% 32.36/32.56 (step t9283.t7 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t9283.t6))
% 32.36/32.56 (step t9283.t8 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t9283.t1 t9283.t7))
% 32.36/32.56 (step t9283.t9 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg2)
% 32.36/32.56 (step t9283.t10 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t9283.t8 t9283.t9))
% 32.36/32.56 (step t9283.t11 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule contraction :premises (t9283.t10))
% 32.36/32.56 (step t9283.t12 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies :premises (t9283.t11))
% 32.36/32.56 (step t9283.t13 (cl (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule and_neg)
% 32.36/32.56 (step t9283.t14 (cl (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t9283.t13 t9283.a0 t9283.a1))
% 32.36/32.56 (step t9283.t15 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t9283.t12 t9283.t14))
% 32.36/32.56 (step t9283 (cl (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule subproof :discharge (t9283.a0 t9283.a1))
% 32.36/32.56 (step t9284 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9285 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) :rule and_pos)
% 32.36/32.56 (step t9286 (cl (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t9283 t9284 t9285))
% 32.36/32.56 (step t9287 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule reordering :premises (t9286))
% 32.36/32.56 (step t9288 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule contraction :premises (t9287))
% 32.36/32.56 (step t9289 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t9282 t9288))
% 32.36/32.56 (step t9290 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule implies_neg2)
% 32.36/32.56 (step t9291 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t9289 t9290))
% 32.36/32.56 (step t9292 (cl (=> (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule contraction :premises (t9291))
% 32.36/32.56 (step t9293 (cl (not (and (not (= tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule implies :premises (t9292))
% 32.36/32.56 (step t9294 (cl (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule resolution :premises (t9281 t9293))
% 32.36/32.56 (step t9295 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (not (= tptp.e11 tptp.e13))))) :rule or_neg)
% 32.36/32.56 (step t9296 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))))) :rule or_neg)
% 32.36/32.56 (step t9297 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (not (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule or_neg)
% 32.36/32.56 (step t9298 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t9294 t9295 t9296 t9297))
% 32.36/32.56 (step t9299 (cl (or (not (not (= tptp.e11 tptp.e13))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule contraction :premises (t9298))
% 32.36/32.56 (step t9300 (cl (or (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))))) :rule resolution :premises (t9278 t9280 t9299))
% 32.36/32.56 (step t9301 (cl (= tptp.e11 tptp.e13) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12)))) :rule or :premises (t9300))
% 32.36/32.56 (step t9302 (cl (= tptp.e11 tptp.e13) (not (= tptp.e11 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)))) :rule reordering :premises (t9301))
% 32.36/32.56 (step t9303 (cl (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.36/32.56 (step t9304 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9305)
% 32.36/32.56 (assume t9305.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9305.a1 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))
% 32.36/32.56 (assume t9305.a2 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9305.a3 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)))
% 32.36/32.56 (assume t9305.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9305.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9305.a6 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9305.a7 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9305.a8 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (step t9305.t1 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9305.t2)
% 32.36/32.56 (assume t9305.t2.a0 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9305.t2.a1 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (assume t9305.t2.a2 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9305.t2.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9305.t2.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9305.t2.a5 (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)))
% 32.36/32.56 (assume t9305.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9305.t2.a7 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9305.t2.a8 (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))
% 32.36/32.56 (step t9305.t2.t1 (cl (= (tptp.op1 tptp.e14 tptp.e13) tptp.e12)) :rule symm :premises (t9305.t2.a8))
% 32.36/32.56 (step t9305.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.h1 tptp.e12))) :rule cong :premises (t9305.t2.t1))
% 32.36/32.56 (step t9305.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t9305.t2.a7))
% 32.36/32.56 (step t9305.t2.t4 (cl (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule symm :premises (t9305.t2.t3))
% 32.36/32.56 (step t9305.t2.t5 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9305.t2.a1))
% 32.36/32.56 (step t9305.t2.t6 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t9305.t2.t5))
% 32.36/32.56 (step t9305.t2.t7 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9305.t2.a4))
% 32.36/32.56 (step t9305.t2.t8 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9305.t2.t7))
% 32.36/32.56 (step t9305.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9305.t2.a3))
% 32.36/32.56 (step t9305.t2.t10 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9305.t2.t9))
% 32.36/32.56 (step t9305.t2.t11 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9305.t2.t10 t9305.t2.a2))
% 32.36/32.56 (step t9305.t2.t12 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t9305.t2.a0 t9305.t2.t11))
% 32.36/32.56 (step t9305.t2.t13 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t9305.t2.a0))
% 32.36/32.56 (step t9305.t2.t14 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9305.t2.a2))
% 32.36/32.56 (step t9305.t2.t15 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t9305.t2.t13 t9305.t2.t14))
% 32.36/32.56 (step t9305.t2.t16 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t9305.t2.t8 t9305.t2.t12 t9305.t2.t15 t9305.t2.t6))
% 32.36/32.56 (step t9305.t2.t17 (cl (= (tptp.h1 tptp.e13) tptp.e23)) :rule symm :premises (t9305.t2.t16))
% 32.36/32.56 (step t9305.t2.t18 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e23)) :rule trans :premises (t9305.t2.t6 t9305.t2.t17))
% 32.36/32.56 (step t9305.t2.t19 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.36/32.56 (step t9305.t2.t20 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) :rule cong :premises (t9305.t2.t18 t9305.t2.t19))
% 32.36/32.56 (step t9305.t2.t21 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t9305.t2.a6))
% 32.36/32.56 (step t9305.t2.t22 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t9305.t2.t21))
% 32.36/32.56 (step t9305.t2.t23 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t9305.t2.t22))
% 32.36/32.56 (step t9305.t2.t24 (cl (= (tptp.op2 tptp.e20 tptp.e23) tptp.e21)) :rule symm :premises (t9305.t2.a5))
% 32.36/32.56 (step t9305.t2.t25 (cl (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) :rule symm :premises (t9305.t2.t24))
% 32.36/32.56 (step t9305.t2.t26 (cl (= (tptp.op2 tptp.e20 tptp.e23) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule cong :premises (t9305.t2.a0 t9305.t2.t16))
% 32.36/32.56 (step t9305.t2.t27 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule trans :premises (t9305.t2.t2 t9305.t2.t4 t9305.t2.t20 t9305.t2.t23 t9305.t2.t25 t9305.t2.t26))
% 32.36/32.56 (step t9305.t2 (cl (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule subproof :discharge (t9305.t2.a0 t9305.t2.a1 t9305.t2.a2 t9305.t2.a3 t9305.t2.a4 t9305.t2.a5 t9305.t2.a6 t9305.t2.a7 t9305.t2.a8))
% 32.36/32.56 (step t9305.t3 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9305.t4 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9305.t5 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9305.t6 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9305.t7 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9305.t8 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.36/32.56 (step t9305.t9 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9305.t10 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9305.t11 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9305.t12 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))))) :rule resolution :premises (t9305.t2 t9305.t3 t9305.t4 t9305.t5 t9305.t6 t9305.t7 t9305.t8 t9305.t9 t9305.t10 t9305.t11))
% 32.36/32.56 (step t9305.t13 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9305.t12))
% 32.36/32.56 (step t9305.t14 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule contraction :premises (t9305.t13))
% 32.36/32.56 (step t9305.t15 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule resolution :premises (t9305.t1 t9305.t14))
% 32.36/32.56 (step t9305.t16 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))))) :rule implies_neg2)
% 32.36/32.56 (step t9305.t17 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9305.t15 t9305.t16))
% 32.36/32.56 (step t9305.t18 (cl (=> (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))))) :rule contraction :premises (t9305.t17))
% 32.36/32.56 (step t9305.t19 (cl (not (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule implies :premises (t9305.t18))
% 32.36/32.56 (step t9305.t20 (cl (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule and_neg)
% 32.36/32.56 (step t9305.t21 (cl (and (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)))) :rule resolution :premises (t9305.t20 t9305.a6 t9305.a8 t9305.a7 t9305.a2 t9305.a4 t9305.a3 t9305.a5 t9305.a0 t9305.a1))
% 32.36/32.56 (step t9305.t22 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule resolution :premises (t9305.t19 t9305.t21))
% 32.36/32.56 (step t9305 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule subproof :discharge (t9305.a0 t9305.a1 t9305.a2 t9305.a3 t9305.a4 t9305.a5 t9305.a6 t9305.a7 t9305.a8))
% 32.36/32.56 (step t9306 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9307 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9308 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9309 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) :rule and_pos)
% 32.36/32.56 (step t9310 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9311 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9312 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9313 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9314 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9315 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9305 t9306 t9307 t9308 t9309 t9310 t9311 t9312 t9313 t9314))
% 32.36/32.56 (step t9316 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9315))
% 32.36/32.56 (step t9317 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule contraction :premises (t9316))
% 32.36/32.56 (step t9318 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule resolution :premises (t9304 t9317))
% 32.36/32.56 (step t9319 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))))) :rule implies_neg2)
% 32.36/32.56 (step t9320 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9318 t9319))
% 32.36/32.56 (step t9321 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))))) :rule contraction :premises (t9320))
% 32.36/32.56 (step t9322 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule implies :premises (t9321))
% 32.36/32.56 (step t9323 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13)))) :rule resolution :premises (t9303 t9322))
% 32.36/32.56 (step t9324 (cl (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9323))
% 32.36/32.56 (step t9325 (cl (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.36/32.56 (step t9326 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9327)
% 32.36/32.56 (assume t9327.a0 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.36/32.56 (assume t9327.a1 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9327.a2 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))
% 32.36/32.56 (assume t9327.a3 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9327.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9327.a5 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9327.a6 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9327.a7 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9327.a8 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (step t9327.t1 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9327.t2)
% 32.36/32.56 (assume t9327.t2.a0 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9327.t2.a1 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9327.t2.a2 (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)))
% 32.36/32.56 (assume t9327.t2.a3 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9327.t2.a4 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9327.t2.a5 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9327.t2.a6 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (assume t9327.t2.a7 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9327.t2.a8 (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))
% 32.36/32.56 (step t9327.t2.t1 (cl (= (tptp.op1 tptp.e11 tptp.e11) tptp.e12)) :rule symm :premises (t9327.t2.a8))
% 32.36/32.56 (step t9327.t2.t2 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.h1 tptp.e12))) :rule cong :premises (t9327.t2.t1))
% 32.36/32.56 (step t9327.t2.t3 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t9327.t2.a7))
% 32.36/32.56 (step t9327.t2.t4 (cl (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule symm :premises (t9327.t2.t3))
% 32.36/32.56 (step t9327.t2.t5 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9327.t2.a6))
% 32.36/32.56 (step t9327.t2.t6 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t9327.t2.t5))
% 32.36/32.56 (step t9327.t2.t7 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9327.t2.t6))
% 32.36/32.56 (step t9327.t2.t8 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9327.t2.a0))
% 32.36/32.56 (step t9327.t2.t9 (cl (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule symm :premises (t9327.t2.t8))
% 32.36/32.56 (step t9327.t2.t10 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t9327.t2.a5 t9327.t2.t9))
% 32.36/32.56 (step t9327.t2.t11 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t9327.t2.a5))
% 32.36/32.56 (step t9327.t2.t12 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9327.t2.a1))
% 32.36/32.56 (step t9327.t2.t13 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9327.t2.t12))
% 32.36/32.56 (step t9327.t2.t14 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9327.t2.t13 t9327.t2.t9))
% 32.36/32.56 (step t9327.t2.t15 (cl (= (tptp.h1 tptp.e11) tptp.e24)) :rule symm :premises (t9327.t2.t14))
% 32.36/32.56 (step t9327.t2.t16 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 tptp.e24))) :rule cong :premises (t9327.t2.t11 t9327.t2.t15))
% 32.36/32.56 (step t9327.t2.t17 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9327.t2.a4))
% 32.36/32.56 (step t9327.t2.t18 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9327.t2.t17))
% 32.36/32.56 (step t9327.t2.t19 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9327.t2.t18))
% 32.36/32.56 (step t9327.t2.t20 (cl (= (tptp.h1 tptp.e13) tptp.e23)) :rule trans :premises (t9327.t2.t7 t9327.t2.t10 t9327.t2.t16 t9327.t2.t19))
% 32.36/32.56 (step t9327.t2.t21 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e23)) :rule trans :premises (t9327.t2.t6 t9327.t2.t20))
% 32.36/32.56 (step t9327.t2.t22 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.36/32.56 (step t9327.t2.t23 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) :rule cong :premises (t9327.t2.t21 t9327.t2.t22))
% 32.36/32.56 (step t9327.t2.t24 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t9327.t2.a3))
% 32.36/32.56 (step t9327.t2.t25 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t9327.t2.t24))
% 32.36/32.56 (step t9327.t2.t26 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t9327.t2.t25))
% 32.36/32.56 (step t9327.t2.t27 (cl (= (tptp.op2 tptp.e24 tptp.e24) tptp.e21)) :rule symm :premises (t9327.t2.a2))
% 32.36/32.56 (step t9327.t2.t28 (cl (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule symm :premises (t9327.t2.t27))
% 32.36/32.56 (step t9327.t2.t29 (cl (= (tptp.op2 tptp.e24 tptp.e24) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule cong :premises (t9327.t2.t14 t9327.t2.t14))
% 32.36/32.56 (step t9327.t2.t30 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule trans :premises (t9327.t2.t2 t9327.t2.t4 t9327.t2.t23 t9327.t2.t26 t9327.t2.t28 t9327.t2.t29))
% 32.36/32.56 (step t9327.t2 (cl (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule subproof :discharge (t9327.t2.a0 t9327.t2.a1 t9327.t2.a2 t9327.t2.a3 t9327.t2.a4 t9327.t2.a5 t9327.t2.a6 t9327.t2.a7 t9327.t2.a8))
% 32.36/32.56 (step t9327.t3 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9327.t4 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9327.t5 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9327.t6 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9327.t7 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9327.t8 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9327.t9 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9327.t10 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9327.t11 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9327.t12 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))))) :rule resolution :premises (t9327.t2 t9327.t3 t9327.t4 t9327.t5 t9327.t6 t9327.t7 t9327.t8 t9327.t9 t9327.t10 t9327.t11))
% 32.36/32.56 (step t9327.t13 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule reordering :premises (t9327.t12))
% 32.36/32.56 (step t9327.t14 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule contraction :premises (t9327.t13))
% 32.36/32.56 (step t9327.t15 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule resolution :premises (t9327.t1 t9327.t14))
% 32.36/32.56 (step t9327.t16 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))))) :rule implies_neg2)
% 32.36/32.56 (step t9327.t17 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))))) :rule resolution :premises (t9327.t15 t9327.t16))
% 32.36/32.56 (step t9327.t18 (cl (=> (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))))) :rule contraction :premises (t9327.t17))
% 32.36/32.56 (step t9327.t19 (cl (not (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule implies :premises (t9327.t18))
% 32.36/32.56 (step t9327.t20 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule and_neg)
% 32.36/32.56 (step t9327.t21 (cl (and (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)))) :rule resolution :premises (t9327.t20 t9327.a7 t9327.a3 t9327.a0 t9327.a5 t9327.a4 t9327.a6 t9327.a8 t9327.a1 t9327.a2))
% 32.36/32.56 (step t9327.t22 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule resolution :premises (t9327.t19 t9327.t21))
% 32.36/32.56 (step t9327 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule subproof :discharge (t9327.a0 t9327.a1 t9327.a2 t9327.a3 t9327.a4 t9327.a5 t9327.a6 t9327.a7 t9327.a8))
% 32.36/32.56 (step t9328 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9329 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9330 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9331 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9332 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9333 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9334 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9335 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9336 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9337 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))))) :rule resolution :premises (t9327 t9328 t9329 t9330 t9331 t9332 t9333 t9334 t9335 t9336))
% 32.36/32.56 (step t9338 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule reordering :premises (t9337))
% 32.36/32.56 (step t9339 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule contraction :premises (t9338))
% 32.36/32.56 (step t9340 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule resolution :premises (t9326 t9339))
% 32.36/32.56 (step t9341 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))))) :rule implies_neg2)
% 32.36/32.56 (step t9342 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))))) :rule resolution :premises (t9340 t9341))
% 32.36/32.56 (step t9343 (cl (=> (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))))) :rule contraction :premises (t9342))
% 32.36/32.56 (step t9344 (cl (not (and (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule implies :premises (t9343))
% 32.36/32.56 (step t9345 (cl (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11)))) :rule resolution :premises (t9325 t9344))
% 32.36/32.56 (step t9346 (cl (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e24 tptp.e24))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule reordering :premises (t9345))
% 32.36/32.56 (step t9347 (cl (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))) :rule resolution :premises (t9230 t9231 t3272 t3298 t9232 t3948 t3950 t9254 t8781 t8824 t8782 t8783 t7767 t2039 t9277 t8781 t8824 t8782 t8783 t864 t461 t9302 t5292 t7851 t799 t767 t7852 t1381 t5239 t9324 t8781 t8824 t8782 t8783 t7877 t3472 t9346 t8781 t8824 t8782 t8783 t461))
% 32.36/32.56 (step t9348 (cl (and (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)))) (and (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e14 (tptp.op1 tptp.e13 tptp.e13)) (not (= tptp.e14 (tptp.op1 tptp.e14 tptp.e13)))) (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23)))) :rule contraction :premises (t9347))
% 32.36/32.56 (step t9349 (cl (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (not (= tptp.e10 tptp.unit1)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) :rule resolution :premises (t9348 t7947 t799 t798 t7948 t1381 t4707 t4355 t4357))
% 32.36/32.56 (step t9350 (cl (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11))) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14))) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) :rule contraction :premises (t9349))
% 32.36/32.56 (step t9351 (cl (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e12 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14))) :rule or :premises (t7961))
% 32.36/32.56 (step t9352 (cl (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule or :premises (t3082))
% 32.36/32.56 (step t9353 (cl (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11))) :rule resolution :premises (t9350 t9351 t8015 t9352 t3658))
% 32.36/32.56 (step t9354 (cl (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11))) :rule contraction :premises (t9353))
% 32.36/32.56 (step t9355 (cl (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e12)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) :rule or :premises (t4372))
% 32.36/32.56 (step t9356 (cl (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14))) :rule resolution :premises (t9354 t9355 t3888))
% 32.36/32.56 (step t9357 (cl (not (= tptp.e10 tptp.unit1)) (= tptp.e14 (tptp.op1 tptp.e10 tptp.e11)) (not (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11))) (= tptp.e10 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e11 (tptp.op1 tptp.e10 tptp.e12)) (= tptp.e10 (tptp.op1 tptp.e12 tptp.e10)) (= tptp.e11 (tptp.op1 tptp.e13 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e13 tptp.e12)) (= tptp.e14 (tptp.op1 tptp.e14 tptp.e11)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e24 (tptp.op2 tptp.e21 tptp.e21))) (not (= tptp.e22 (tptp.op2 tptp.e21 tptp.e23))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e20 (tptp.op2 tptp.e23 tptp.e21))) (not (= tptp.e24 (tptp.op2 tptp.e23 tptp.e23))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e11)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e11)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e12)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e12)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e13)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e13)))) (not (= (tptp.h1 (tptp.op1 tptp.e10 tptp.e14)) (tptp.op2 (tptp.h1 tptp.e10) (tptp.h1 tptp.e14)))) (not (= (tptp.h1 (tptp.op1 tptp.e11 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e11) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e13 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e13) (tptp.h1 tptp.e10)))) (not (= (tptp.h1 (tptp.op1 tptp.e14 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e10)))) (not (= tptp.e22 (tptp.op2 tptp.e20 tptp.e21))) (not (= tptp.e20 (tptp.op2 tptp.e24 tptp.e23))) (= tptp.e10 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e14 (tptp.op1 tptp.e11 tptp.e14)) (not (= tptp.e23 (tptp.op2 tptp.e21 tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13))) (not (= tptp.e21 (tptp.op2 tptp.e20 tptp.e23))) (= tptp.e13 (tptp.op1 tptp.e14 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e10 tptp.e14)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e14)) (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e10)) (= tptp.e13 (tptp.op1 tptp.e11 tptp.e13))) :rule contraction :premises (t9356))
% 32.36/32.56 (step t9358 (cl (= tptp.e12 (tptp.op1 tptp.e14 tptp.e10)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e12)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e13)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e14))) :rule or :premises (t3475))
% 32.36/32.56 (step t9359 (cl (= tptp.e12 (tptp.op1 tptp.e10 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e11 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e13 tptp.e11)) (= tptp.e12 (tptp.op1 tptp.e14 tptp.e11))) :rule or :premises (t8024))
% 32.36/32.56 (step t9360 (cl (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule and_neg)
% 32.36/32.56 (step t9361 (cl (=> (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (and (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e22 tptp.unit2) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9362)
% 32.36/32.56 (assume t9362.a0 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.36/32.56 (assume t9362.a1 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9362.a2 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.36/32.56 (assume t9362.a3 (= tptp.e10 tptp.unit1))
% 32.36/32.56 (assume t9362.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9362.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9362.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9362.a7 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.36/32.56 (assume t9362.a8 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.36/32.56 (assume t9362.a9 (= tptp.e22 tptp.unit2))
% 32.36/32.56 (assume t9362.a10 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9362.a11 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9362.a12 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (step t9362.t1 (cl (=> (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) :rule implies_neg1)
% 32.36/32.56 (anchor :step t9362.t2)
% 32.36/32.56 (assume t9362.t2.a0 (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)))
% 32.36/32.56 (assume t9362.t2.a1 (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)))
% 32.36/32.56 (assume t9362.t2.a2 (= tptp.e20 (tptp.h1 tptp.e14)))
% 32.36/32.56 (assume t9362.t2.a3 (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)))
% 32.36/32.56 (assume t9362.t2.a4 (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)))
% 32.36/32.56 (assume t9362.t2.a5 (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)))
% 32.36/32.56 (assume t9362.t2.a6 (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)))
% 32.36/32.56 (assume t9362.t2.a7 (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)))
% 32.36/32.56 (assume t9362.t2.a8 (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)))
% 32.36/32.56 (assume t9362.t2.a9 (= tptp.e22 tptp.unit2))
% 32.36/32.56 (assume t9362.t2.a10 (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)))
% 32.36/32.56 (assume t9362.t2.a11 (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)))
% 32.36/32.56 (assume t9362.t2.a12 (= tptp.e10 tptp.unit1))
% 32.36/32.56 (step t9362.t2.t1 (cl (= tptp.e12 tptp.e12)) :rule refl)
% 32.36/32.56 (step t9362.t2.t2 (cl (= tptp.unit1 tptp.e10)) :rule symm :premises (t9362.t2.a12))
% 32.36/32.56 (step t9362.t2.t3 (cl (= tptp.e10 tptp.unit1)) :rule symm :premises (t9362.t2.t2))
% 32.36/32.56 (step t9362.t2.t4 (cl (= (tptp.op1 tptp.e12 tptp.e10) (tptp.op1 tptp.e12 tptp.unit1))) :rule cong :premises (t9362.t2.t1 t9362.t2.t3))
% 32.36/32.56 (step t9362.t2.t5 (cl (= (tptp.op1 tptp.e12 tptp.unit1) tptp.e12)) :rule symm :premises (t9362.t2.a11))
% 32.36/32.56 (step t9362.t2.t6 (cl (= (tptp.op1 tptp.e12 tptp.e10) tptp.e12)) :rule trans :premises (t9362.t2.t4 t9362.t2.t5))
% 32.36/32.56 (step t9362.t2.t7 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.h1 tptp.e12))) :rule cong :premises (t9362.t2.t6))
% 32.36/32.56 (step t9362.t2.t8 (cl (= (tptp.op2 tptp.e20 tptp.e24) tptp.e23)) :rule symm :premises (t9362.t2.a5))
% 32.36/32.56 (step t9362.t2.t9 (cl (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule symm :premises (t9362.t2.t8))
% 32.36/32.56 (step t9362.t2.t10 (cl (= (tptp.op2 tptp.e20 tptp.e20) tptp.e24)) :rule symm :premises (t9362.t2.a4))
% 32.36/32.56 (step t9362.t2.t11 (cl (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9362.t2.t10))
% 32.36/32.56 (step t9362.t2.t12 (cl (= tptp.e24 (tptp.h1 tptp.e11))) :rule trans :premises (t9362.t2.t11 t9362.t2.a3))
% 32.36/32.56 (step t9362.t2.t13 (cl (= (tptp.op2 tptp.e20 tptp.e24) (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)))) :rule cong :premises (t9362.t2.a2 t9362.t2.t12))
% 32.36/32.56 (step t9362.t2.t14 (cl (= (tptp.h1 tptp.e14) tptp.e20)) :rule symm :premises (t9362.t2.a2))
% 32.36/32.56 (step t9362.t2.t15 (cl (= (tptp.h1 tptp.e11) (tptp.op2 tptp.e20 tptp.e20))) :rule symm :premises (t9362.t2.a3))
% 32.36/32.56 (step t9362.t2.t16 (cl (= (tptp.op2 (tptp.h1 tptp.e14) (tptp.h1 tptp.e11)) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule cong :premises (t9362.t2.t14 t9362.t2.t15))
% 32.36/32.56 (step t9362.t2.t17 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9362.t2.a1))
% 32.36/32.56 (step t9362.t2.t18 (cl (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule symm :premises (t9362.t2.t17))
% 32.36/32.56 (step t9362.t2.t19 (cl (= tptp.e23 (tptp.h1 tptp.e13))) :rule trans :premises (t9362.t2.t9 t9362.t2.t13 t9362.t2.t16 t9362.t2.t18))
% 32.36/32.56 (step t9362.t2.t20 (cl (= (tptp.h1 tptp.e13) (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule symm :premises (t9362.t2.t18))
% 32.36/32.56 (step t9362.t2.t21 (cl (= tptp.e23 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)))) :rule trans :premises (t9362.t2.t19 t9362.t2.t20))
% 32.36/32.56 (step t9362.t2.t22 (cl (= tptp.e20 tptp.e20)) :rule refl)
% 32.36/32.56 (step t9362.t2.t23 (cl (= (tptp.op2 tptp.e23 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule cong :premises (t9362.t2.t21 t9362.t2.t22))
% 32.36/32.56 (step t9362.t2.t24 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t9362.t2.t23))
% 32.36/32.56 (step t9362.t2.t25 (cl (= (tptp.op2 tptp.e23 tptp.e20) tptp.e21)) :rule symm :premises (t9362.t2.a6))
% 32.36/32.56 (step t9362.t2.t26 (cl (= (tptp.op2 tptp.e21 tptp.unit2) tptp.e21)) :rule symm :premises (t9362.t2.a10))
% 32.36/32.56 (step t9362.t2.t27 (cl (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule symm :premises (t9362.t2.t26))
% 32.36/32.56 (step t9362.t2.t28 (cl (= tptp.e21 tptp.e21)) :rule refl)
% 32.36/32.56 (step t9362.t2.t29 (cl (= tptp.unit2 tptp.e22)) :rule symm :premises (t9362.t2.a9))
% 32.36/32.56 (step t9362.t2.t30 (cl (= (tptp.op2 tptp.e21 tptp.unit2) (tptp.op2 tptp.e21 tptp.e22))) :rule cong :premises (t9362.t2.t28 t9362.t2.t29))
% 32.36/32.56 (step t9362.t2.t31 (cl (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule symm :premises (t9362.t2.t25))
% 32.36/32.56 (step t9362.t2.t32 (cl (= (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20) (tptp.h1 tptp.e12))) :rule symm :premises (t9362.t2.a0))
% 32.36/32.56 (step t9362.t2.t33 (cl (= tptp.e21 (tptp.h1 tptp.e12))) :rule trans :premises (t9362.t2.t31 t9362.t2.t23 t9362.t2.t32))
% 32.36/32.56 (step t9362.t2.t34 (cl (= (tptp.op2 tptp.e24 tptp.e20) tptp.e22)) :rule symm :premises (t9362.t2.a8))
% 32.36/32.56 (step t9362.t2.t35 (cl (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule symm :premises (t9362.t2.t34))
% 32.36/32.56 (step t9362.t2.t36 (cl (= (tptp.op2 tptp.e24 tptp.e20) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule cong :premises (t9362.t2.t11 t9362.t2.t22))
% 32.36/32.56 (step t9362.t2.t37 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.h1 tptp.e10))) :rule symm :premises (t9362.t2.a7))
% 32.36/32.56 (step t9362.t2.t38 (cl (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule symm :premises (t9362.t2.t37))
% 32.36/32.56 (step t9362.t2.t39 (cl (= (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20) (tptp.h1 tptp.e10))) :rule symm :premises (t9362.t2.t38))
% 32.36/32.56 (step t9362.t2.t40 (cl (= tptp.e22 (tptp.h1 tptp.e10))) :rule trans :premises (t9362.t2.t35 t9362.t2.t36 t9362.t2.t39))
% 32.36/32.56 (step t9362.t2.t41 (cl (= (tptp.op2 tptp.e21 tptp.e22) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) :rule cong :premises (t9362.t2.t33 t9362.t2.t40))
% 32.36/32.56 (step t9362.t2.t42 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) :rule trans :premises (t9362.t2.t7 t9362.t2.a0 t9362.t2.t24 t9362.t2.t25 t9362.t2.t27 t9362.t2.t30 t9362.t2.t41))
% 32.36/32.56 (step t9362.t2 (cl (not (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) (not (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) (not (= tptp.e20 (tptp.h1 tptp.e14))) (not (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) (not (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) (not (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) (not (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) (not (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) (not (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) (not (= tptp.e22 tptp.unit2)) (not (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) (not (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) (not (= tptp.e10 tptp.unit1)) (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10)))) :rule subproof :discharge (t9362.t2.a0 t9362.t2.a1 t9362.t2.a2 t9362.t2.a3 t9362.t2.a4 t9362.t2.a5 t9362.t2.a6 t9362.t2.a7 t9362.t2.a8 t9362.t2.a9 t9362.t2.a10 t9362.t2.a11 t9362.t2.a12))
% 32.36/32.56 (step t9362.t3 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9362.t4 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13))) :rule and_pos)
% 32.36/32.56 (step t9362.t5 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e20 (tptp.h1 tptp.e14))) :rule and_pos)
% 32.36/32.56 (step t9362.t6 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11))) :rule and_pos)
% 32.36/32.56 (step t9362.t7 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9362.t8 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24))) :rule and_pos)
% 32.36/32.56 (step t9362.t9 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9362.t10 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9362.t11 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20))) :rule and_pos)
% 32.36/32.56 (step t9362.t12 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e22 tptp.unit2)) :rule and_pos)
% 32.36/32.56 (step t9362.t13 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2))) :rule and_pos)
% 32.36/32.56 (step t9362.t14 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1))) :rule and_pos)
% 32.36/32.56 (step t9362.t15 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (= tptp.e10 tptp.unit1)) :rule and_pos)
% 32.36/32.56 (step t9362.t16 (cl (= (tptp.h1 (tptp.op1 tptp.e12 tptp.e10)) (tptp.op2 (tptp.h1 tptp.e12) (tptp.h1 tptp.e10))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1)))) :rule resolution :premises (t9362.t2 t9362.t3 t9362.t4 t9362.t5 t9362.t6 t9362.t7 t9362.t8 t9362.t9 t9362.t10 t9362.t11 t9362.t12 t9362.t13 t9362.t14 t9362.t15))
% 32.36/32.56 (step t9362.t17 (cl (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tptp.op2 tptp.e20 tptp.e20) tptp.e20)) (= tptp.e22 (tptp.op2 tptp.e24 tptp.e20)) (= tptp.e22 tptp.unit2) (= tptp.e21 (tptp.op2 tptp.e21 tptp.unit2)) (= tptp.e12 (tptp.op1 tptp.e12 tptp.unit1)) (= tptp.e10 tptp.unit1))) (not (and (= (tptp.h1 tptp.e12) (tptp.op2 (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) tptp.e20)) (= (tptp.op2 tptp.e20 (tptp.op2 tptp.e20 tptp.e20)) (tptp.h1 tptp.e13)) (= tptp.e20 (tptp.h1 tptp.e14)) (= (tptp.op2 tptp.e20 tptp.e20) (tptp.h1 tptp.e11)) (= tptp.e24 (tptp.op2 tptp.e20 tptp.e20)) (= tptp.e23 (tptp.op2 tptp.e20 tptp.e24)) (= tptp.e21 (tptp.op2 tptp.e23 tptp.e20)) (= (tptp.h1 tptp.e10) (tptp.op2 (tpt